201124317 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種板狀體之收納容器及收納體以及板狀 體之裝載裝置及搬運車輛,尤其係關於一種用以將液晶顯 示器或電漿顯示器(plasma display)等之大型玻璃基板及其 製造過程中之中間產品之大型玻璃板以積層狀態收納之收 納容器及所收納之收納體以及裝載收納體之裝載裝置及搭 載該裝載裝置之搬運車輛。 【先前技術】 近年來,對液晶顯示器用玻璃基板、電漿顯示器用玻璃 基板等FPD(Flat Panel Display,平板顯示器)用玻璃基板之 大型化之需求日益提高,尤其是,被稱作第10代尺寸之玻 璃基板係一邊超過3000 mm之大型尺寸。將此類大型玻璃 板積層複數片而加以收納之收納容器係即便短邊亦超過 3〇〇〇 mm,故而受搬運車輛(例如拖車或掛車)在公路中行 駛時之道路交通法規之車寬限制而難以成水平狀態進行搬 運,需以於搬運車輛之裝貨台上傾斜特定角度之狀態進行 搬運。 於專利文獻1中揭示有使面板傾斜來裝載之裝載裝置(面 板捆包用拖車)。專利文獻1之圖1所示之裝載裝置係包括 支持台、一對支持框及面板支持構件等。上述支持台係於 卡車之别部及後部包含枢支部,於該樞支部樞支有旋動自 如地連結著頂部之一對支持框之下端部。又,於一對支持 框之高度方向之中間部之外侧設置有旋動自如之中間鉸 151080.doc 201124317 鏈,利用該鉸鏈,一對支持框係於裝配時立起成大致山形 狀。又,於一對支持框設置有以倚靠狀態支持面板之面板 支持構件。亦即,專利文獻1之裝載裝置係將面板倚靠於 立起成大致山形狀之一對支持框而裝載者。 於專利文獻2中揭示有使玻璃板傾斜而裝載之裝載裝置 (板玻璃輸送用拖車)。於專利文獻2之圖示之裝載裝置 中,於上部構件可拆卸之箱式拖車之内部設置有傾斜之支 持構件。於該支持構件上扣合有剖面為£字狀之玻璃支承 構件,於該玻璃支承構件上隔.著回填砂層而積層有複數片 玻璃板。於該裝載裝置中,將裝載有玻璃板之玻璃支承構 件藉由專利文獻2之如圖2所示之起重機等吊起設備吊起而 收納於小型拖車之内部。 又,必須以收納於收納容器之積層狀態之玻璃板不會因 搬運中之振動等進行移動而產生缺口或斷裂之方式將玻 璃板固定於收納容器。因此,通常於積層狀態之玻璃板彼 此之間夾持間隔紙而使玻璃板彼此不會直接相互摩擦。進 而,如圖28所示,於將玻璃板G以積層狀態積層於收納容 器1之基座2上而成之板狀積層物3之頂面放置頂板4,並利 用由收納容器1之上板5所支持之老虎鉗方式之按壓機構6 自上而下對頂板4之4個角部施加按壓力(例如1〇8 kg/一個 部位)’藉此以搬運過程中亦不會使所積層之玻璃板移動 之方式將玻璃板固定於收納容器1(例如專利文獻3)。 [先前技術文獻] [專利文獻] 151080.doc 201124317 [專利文獻1]日本專利特開2005-3248 15號公報 [專利文獻2]日本專利特開平4_3丨丨488號公報 [專利文獻3]日本專利特開20074 53395號公報 【發明内容】 [發明所欲解決之問題] 然而,若於裝載上述第1 〇代大型玻璃板時使用專利文獻 1所揭示之裝載裝置,則存在如下問題,即因大型玻璃板 之操作之不便性,於裝配時將大型玻璃板以倚靠狀態裝載 於立起成大致山形狀之支持框則操作上需要大量勞力,無 法效率佳地進行大型玻璃板之裝載操作。又,支持框與鉛 垂線所成之角度為10度,若為該角度則會導致玻璃基板違 反搬運車輛之尚度限制,故而必須施以約4 〇度之傾斜。 又,專利文獻2所揭示之裝載裝置需要將裝載有大型玻 璃板之玻璃支承構件吊起之起重機等吊起設備,故而存在 大型玻璃板之裝載設備變大之問題。 因此,專利文獻1、2之裝载裝置存在作為裝载縱橫超過 3 000 mm之大型玻璃板之裝置並不實用之問題。 另一方面,於專利文獻1之裝載裝置中,作為相對於拖 車等搬運車輛之搬運時之振動或撞擊而防止面板破損之方 法係藉由將面板相對於支持框之傾斜角度設定為1 〇。來應 對,但其作為相對於搬運時之較大撞擊或左右擺動而防止 破損之方法並不充分。又,於專利文獻2之裝載裝置中, 作為相同之方法係藉由回填砂層來應對,但其作為相對於 搬運時之較大撞擊或左右擺動而防止破損之方法亦不充 151080.doc 201124317 分。 於士專利文獻3般將玻璃板之積層物以按壓機構自 上而下加壓來固定於收納容器之方法中,存在無法完全消 除搬運時之振動或撞擊所造成之玻璃板之缺口或斷裂之問 通尤八疋玻璃板越大型化,搬運中之缺口或斷裂之出 現頻率越南’專利文獻3之方法實際上無法應對玻璃板之 大型化。 進而,為防止玻璃板之缺口或斷裂,如上所述於玻璃板 彼此之間夾持間隔紙,但玻璃板容易產生靜電,故而亦存 在如下問題,即因搬運中之振動等導致玻璃板上產生靜 電,使用者難以自玻璃板剝離間隔紙。 該等搬運時之振動或撞擊所造成之玻璃板之缺口或斷裂 之問題或使用者難以自玻璃板剝離間隔紙之問題並不限定 於玻璃板’而是所有容易損傷且容易產生靜電之板狀體所 共有之問題。 本發明之目的在於提供一種即便為大型板狀體亦可確實 地防止辨:運時之振動或撞擊所引起之板狀體之損傷,並且 可自板狀體簡單地剝離間隔紙之板狀體之收納容器及收納 體。 又’本發明之目的在於提供一種即便為大型板狀體亦可 有效實施裝載操作,並且可防止搬運時之振動或撞擊所引 起之板狀體之損傷之板狀體之裝載裝置及該搬運車輛。 [解決問題之技術手段] 為了實現上述目的,本發明之板狀體之收納容器之特徵 151080.doc 201124317 在於· 以將複數片板狀體以積層狀態收納者,其包 土座〃载置將上述板狀體與間隔紙交替地積層所形 成之板狀積層物;播板,其由上述基座支持,於形成上述 板狀積層物時與該板狀積層物之4個側面中之1個側面抵 片片材纟覆覆蓋述基座上所冑置之板狀積層物; 以及複數個橫壓構件,其由上述基座支持,隔著於上述板 狀積層物之側面垂下之間隔紙部分與覆覆蓋述板狀積層物 之片材而夾持上述板狀積層物之側面,並且藉由片材而將 上述板狀積層物一體地固定於上述基座。 /又為了貝現上述目的,本發明之板狀體之收納體之特 徵在於.其係將複數片板狀體以積層狀態收納於收納容器 者,其包括:板狀積層物,其載置於上述收納容器之基 座’且交替地積層有俯視矩形狀之板狀體及面積大於該板 狀體之間隔紙;擋板’纟由上述基座支持,聽接於上述 板狀積層物之4個側面中之“固側面;一片片材,其覆覆蓋 述基座上所載置之板狀積層物;以及複數個橫壓構件,其 述基座支持,卩w著於上述板狀積層物之側面垂下之間 隔紙部分與覆覆蓋述板狀積層物之片材而夾持上述板狀積 層物之側面,並且藉由片材而將上述板狀積層物一體地固 定於上述基座。 根據本發明之板狀體之收納容器,板狀體與間隔紙交替 地積層而成之板狀積層物以使丨個側面抵接於擋板之方式 載置於基座上’且自板狀裝載物之上方覆蓋一片片材而以 緊繃狀態覆蓋板狀積層物之上表面與4個側面。而且,藉 I51080.doc 201124317 由基座所支持之複數個㈣構件,隔著於餘㈣物之側 面垂下之間隔紙部分與覆蓋板狀積層物之片材而夾持板狀 積層物之側面’並且藉由緊端狀態之片材而將板狀積層物 一體地固定於基座°於該情形時,為了將板狀積層物牢固 地固定於基座,必須將覆蓋板狀積層物之片材之邊角拉伸 而形成使片材㈣之狀態後利用橫壓構件加以固定。 藉此,形成將上述複數片板狀體以積層狀態收納於收納 容器之收納體。 由於如此形成之收納體之板狀積層物係以緊繃狀態之片 材而-體地固定於基座,因此對板狀積層物均等地施加緊 繃狀態之片材之緊固力。藉此’以拖車等搬運機構搬運收 納體時之振動或撞擊所產生之應力不會部分性地集中於板 狀積層物之一部分上。亦即,不會如專利文獻3中已進行 說明之以老虎鉗方式之按壓機構對頂板之4個角部施加按 壓力之先前般搬運時的振動所產生之應力集中於板狀積層 物之頂面之4個角部。又,間隔紙與片材發揮緩衝之作用 而吸收搬運時之振動。 因此’即便為大型板狀體亦可確實地防止搬運中之振動 或撞擊所引起之板狀體之損傷。 於本發明之板狀體之收納體中,較佳為上述片材係去除 靜電之除電片材。只要為除電片材,則即便因搬運中之振 動等而導致板狀體上產生靜電’亦可去除靜電,因此不會 存在使用者難以剝離密接於板狀體之間隔紙之問題。 於本發明之板狀體之收納體中,較佳為於上述片材形成 151080.doc 201124317 有以該片材覆覆蓋述板狀積層物時上述擋板貫穿之狹縫 孔。藉此,即便於將板狀積層物載置於基座時板狀積層物 之1個側面抵接於擋板,亦可以覆蓋板狀積層物之上表面 與4個側面之方式由片材完全覆蓋板狀積層物。又,由於 容易使覆蓋板狀積層物之片材成為緊繃狀態,因此可以片 材將板狀積層物牢固地固定於基座。 於本發明之板狀體之收納體中,較佳為上述橫壓構件係 裝卸自如地由上述基座支持。藉此,於將板狀體裝載於收 納容器之基座時,橫壓構件不會成為妨礙。 為了實現上述目的,本發明之板狀體之裝載裝置之特徵 在於:其係用以將積層有複數片板狀體並收納於收納容器 之收納體裝載於搬運車輛者,其包括:基台;衰減器,其 配置於上述基台與上述搬運車輛之底板面之間;彈性體, 其配置於上述基台與上述搬運車輛之底板面之間且於基台 ^角部,並且抑制基台相對於搬運車輛底板面之左右擺動 量,傾斜σ,其裝載上述收納體且軸支於上述基台,以載 置有上述收納體之狀態在水平狀態與特定之傾斜狀態之間 進仃傾動;傾動機構,其使上述傾斜台傾動;左右偏移限 制機構,其將裝載於上述傾斜台之收納體之一方之緣部按 _'斜台之壁部而限制收納體相對於傾斜台之左右偏 私,收納粗固疋機構,其將裝載於上述傾斜台之收納體固 :於傾斜台,並且解除該固定;以及傾斜狀態保持機構, 八以傾斜狀態保持上述傾斜台,並且解除該保持。 於搭載於搬運車輛之U裝置中裝載收納體之情形時, I51080.doc 201124317 首先,藉由傾動機構使傾斜台相對於基台進行傾動而保持 為水平狀態,並以該狀態,藉由堆高機而將收納體載置於 傾斜台。藉此,即便為大型板狀體,亦可將該收納體容易 地裝載於傾斜台。 其次,於藉由搬運車輛而搬運在傾斜台上所載置之收納 體之情形時,首先,藉由左右偏移限制機構限制收納體相 對於傾斜台之左右偏移。藉此,即便自搬運車輛對傾斜台 施加振動或撞擊,收納體亦不會相對於傾斜台進行左右偏 移,因此可防止左右偏移所引起之板狀體之損傷。此後, 藉由傾動機構使傾斜台傾動而將該傾斜台之姿勢變更為傾 斜狀態。然後,藉由收納體固定機構而將收納體固定於傾 斜口繼而,藉由傾斜狀態保持機構而以傾斜狀態保持傾 斜口於該姿勢隻更時,因收納體係藉由收納體固定機構 :固定於傾斜台’故而收納體不會自傾斜台偏移或者脫 落。藉此,可將收納體穩定地變更為傾斜姿勢。 藉由以上動作而完成收納體之搬運準備。於該裝載裝置 之搬運時之形態中,因收納體係以傾斜狀態搬運,故而即 便為大型板狀體,亦可依照現行之道路交通法規以搬運車 輛進行搬運。X,由於傾斜台係藉由傾斜狀態保持機構保 持為傾斜狀態’因此即便搬運時之振動或左右擺動傳遞至 基台,傾斜台亦不會相對於基台晃動。藉此,可防止上述 晃動所引起之板狀體之損傷。 而且,於藉由搬運車輛搬運收納體日夺,自搬運車輛傳遞 至裝载裝置之振動係藉以置於基台與搬運車輛之底板面 151080.doc -10· 201124317 之間之衰減器得以衰減而不會直接傳遞至裝載裝置,因此 可防止上述振動所引起之板狀體之損傷。X,自搬運車輛 施加至裝載裝置之左右擺動係與左右偏移限制機構之左右 偏移防止效果互起作用而使配置於基台與搬運車輛之底板 面之間之複數個彈性構件彈性變形,藉此其左右擺動量, 故而可將收納體穩定地搬運,藉此,可防止左右擺動所引 起之板狀體之損傷。 藉由上述說明’才艮據本發明之裝载裝置,便為大型板 '體亦可有效實鈿裝載操作,並且藉由包括左右偏移限制 機構、衰減ϋ及彈性體之破損防止機構之作用,可確實地 防止搬運時之振動或撞擊所引起之板狀體之損傷。 較佳為本發明之上述彈性體係盤簧,該盤簧具有在上述 基台相對於上述搬運車輛之底板面左右擺動時,防止傾斜 狀態之傾斜台上端與搬運車輛之壁面碰撞之負重特性。 根據本發明,藉由盤簣之負重特性,於裝載裝置左右擺 動時,τ防止㈣斜狀態之傾斜台上端與搬運車輛之壁面碰 撞,故而可防止上述碰撞所引起之板狀體之損傷。 較佳為本發明之上述左右偏移限制機構包含:襯墊;以 及襯墊驅動部,其藉由將該襯墊按壓於上述傾斜台上所裝 載之上述收納體之一方之緣部而將收納體之另一方之緣部 知:壓於傾斜台之壁部。較佳為上述收納體固定機構包含: 掛鉤,其移動自如地設置於上述傾斜台,並且與傾斜台上 斤裝载之上述收納體之扣合部扣合;以及掛鉤驅動部,其 使該掛鉤在扣合於收納體之上述扣合部之位置與解除該扣 151080.doc 201124317 合之位置之間移動°較佳為上述傾動機構包含:缸體,其 a 地由上述基台或上述搬運車輛之底板面支持; 其相對於該虹體進行伸縮且其前端部連結於上述傾斜 台,以及桿驅動部,其使該桿相對於紅體進行伸縮。較佳 為上述傾斜狀態保持機構包含:銷驅動部,其具有固定於 f述基台並且伸縮之銷;以及扣合部,其設置於上述傾斜 ° ’並且形成有在傾斜台為傾斜狀態時與伸長之上述銷扣 合之孔。 根據本發明之左右偏移限制機構,藉由襯墊驅動部,將 襯塾按壓於傾斜Α卜张# # / ^ 、〇上所裝載之收納體之一方之緣部而將收 内體之另方之緣部按壓於傾斜台之壁部。藉此,可容易 防止收納體相對於傾斜台之左右偏移。又,於自傾斜台取 出收納體時’亦可藉由襯墊驅動部而使襯墊自收納體之另 一方之緣部退避移動。 根據本發明之收納體固定機構,藉由設置於傾斜台之掛 鉤驅動部’使掛鉤扣合於收納體之扣合部。藉此,可將收 納體谷易固^於傾斜台。又,於自傾斜台取出收納體時, 僅藉由掛鉤驅動部使掛鉤自相對於上述扣合部之扣合位置 移動至解除扣合之位置即可。 根據本發明之傾動機構’藉由桿驅動部而使桿相對於紅 體進行伸長,藉此可使傾斜台容易成為傾斜I態,且使桿 進仃收縮,藉此可容易地使傾斜台成為水平狀態。 根據本發明之傾斜狀態保持機構,僅藉由銷驅動部使銷 伸長而使銷扣合於扣合部之孔,便可將傾斜台容易地保持 15I080.doc 12 201124317 :::狀想。又’於欲將傾斜台之姿勢變更為水 退避即可。”’動。”吏鋼收縮而僅使鎖自扣合部之孔 將本發明之左右偏移限制機構之襯 定機構之掛鉤驅動部、傾备秘# 收納體固 !機構之㈣部分別設為動力缸體等電動 =:利地進行收納體相對於傾斜台之裝載操作:相: 於傾斜台之搬出操作。 妹^ 了實現上述目的’本發明之搬運車輛之特徵在於:如 二項1 2或3之板狀體之裝載裝置係以轴支上述傾斜台 方向成為行進方向之方式,經由連結構件而連結 並裕載有複數台。 ^明之搬運車輛係拖車、牽引車之拖車及裝載於拖車 、等車#又’本發明之搬運車輛係將複數台裝載裝 置以經由連結構件連結之狀態搭載於底板面,故而與將複 數台裝載裝置作為丨台裝置搭載於底板面之情況等同。藉 此對底板面均等地施加複數台裝載裝i之負重。針對 此,若將複數台裝載裝置不經由連結構件連結而是分別個 別也搭载於底板面’則對底板面施加偏負I,故*有時導 致底板面波狀變形。 、且說’作為搬運車輛,眾所周知有翼式拖車,其包括搬 運車辆之側面及車頂部分以安裝於搬運車輛之車頂之中央 樑之鉸鏈為中心摺疊式地開啟及_之_對翼。於此類拖 車之情形日夺’因底板面之上述變形亦會導致上述中央襟波 I51080.doc 13 201124317 狀變形,故而存在無法順利地將翼開啟及關閉之缺點。 針對此,於本發明中,由於如上所述將複數台裝載裝置 經由連結構件連結而作為丨台裝置搭載於底板面,因此對 底板面均等地施加負重,由於僅底板面均等地移位,因此 中央樑不會邊形’藉此,可順利地進行翼之開啟及關閉。 為了實現上述目的,本發明之板狀體之輸送方法之特徵 在於包含:板狀體之水平保持步驟,將積層有複數片至少 一邊為2800 mm以上之板狀體之板狀積層物保持於傾動至 裝載裝置之水平狀態之傾斜台;板狀體之裝載步驟,於保 持著上述板狀體之傾斜台維持水平狀態下將上述裝載裝置 搬送至搬運車輛而進行裝載;板狀體之傾斜保持步驟,於 上述搬運車_上使上述傾斜台傾動而將上述板狀積層物以 傾斜狀態保持於上述裝載裝置;以及板狀體之搬送步驟, 藉由上述搬運車輛將上述板狀積層物維持著傾斜狀態而搬 送至目的地。 根據本發明之板狀體之輸送方法,於將積層有板狀體之 板狀積層物裝載於搬運車輛時,由於將板狀積層物保持並 裝載於傾動至裝載裝置之水平狀態之傾斜台’因此即便為 大型板狀體,亦可效率佳地進行對搬運車輛之裝載操作。 而且,於將板狀積層物搬送至目的地時,由於使傾斜台傾 動而將板狀積層物保持為傾斜狀態來進行搬送,因此即便 為較搬運車輛寬度更大型之板狀體,亦可收納於搬運車輛 内且可防止搬運時之振動或撞擊所引起之板狀體之損 傷。 1510E0.doc -14 - 201124317 又’作為本發明之板狀體之輸送方法中所使用之裝載裝 置,較佳為使用如請求項6至9中任—項之裝載裝置。 [發明之效果] 如上說明般,根據本發明之板狀體之收納容器及收納 體,即便為大型板狀體亦可防止搬運時之振動或撞擊所引 起之板狀體之損傷,並且可自板狀體簡單地剝離間隔紙。 又,根據本發明之板狀體之裝載裝置及搬運車輛,即便 為大型+反狀體亦可安丈率佳地實施裝載操#,並且可防止搬 運時之振動或撞擊所引起之板狀體之損傷。 【實施方式】 以下,根據隨附圖式對本發明之板狀體之收納容器及收 納體以及板狀體之裝載裝置及搬運車輛之較佳實施形態進 行說明。 [板狀體之收納體] 本發明之板狀體之收納體係藉由如下方式構成,即,於 本發明之收納容器之基座上水平地積層有複數片例如 1〜180片之矩形狀之板狀體,且板狀體彼此之間隔著尺寸 大於板狀體之矩形狀之間隔紙而積層,於該板狀積層物上 覆蓋片材而一體地固定於基座。 於本發明之實施形態中’作為板狀體,使用FPD用之玻 璃板G、尤其是液晶顯示器中所使用之至少一邊為 28〇〇(mm)以上、例如縱橫尺寸超過約3000(mm)之尺寸之 母玻离基板且板之厚度為1 mm以下之例進行說明。再者, 玻璃板G之尺寸並不限定於此,但本發明之板狀體之收納 151080.doc 15 201124317 體及下述之板狀體之裝載裝置適用於此類大型玻璃板G。 圖1〜圖4係表示至形成本發明之板狀體之收納體為止之 順序之圖。 如圖1之第1步驟所示,首先,於收納容器丨丨之基座12 上’以與垂直地立設於基座12之1個側面之2片定位構件 (擋板)1 4抵接之方式,交替地積層有俯視矩形狀之玻璃板 G與面積大於該玻璃板G之矩形狀之間隔紙丨3。藉此,形 成載置於基座12上之板狀積層物15。於該情形時,因間隔 紙13之面積大於玻璃板G ’故而間隔紙13之周圍部分係於 板狀積層物15之側面垂下。 間隔紙13具有例如平滑度為18秒以下(jis p 8119,1976) 之粗概面。以間隔紙13之樹脂成分轉印於玻璃板〇而於玻 璃面上不產生紙紋圖案、印痕、污垢等之方式,選擇接觸 面積小之紙質。進而,間隔紙〗3之樹脂成分為〇 〇5質量% 以下(JISP 8205, 1976)。選擇不會因與上述紙面粗糙度之 複合效果而對玻璃板G本身之品質造成不良影響之紙質。 又,收納容器11係主要包括基座丨2、定位構件丨4、以及 下述橫壓構件16及片材17。 基座12係組裝複數根框材2〇、2〇而構成為框架狀。框 材20係例如鋁合金製、不鏽鋼製、38(以“1,鋼 構造)鋼製或 SGHC(Steel Galvanized H〇t c〇mmercia卜熱 浸鍵辞)鋼板製。製作2台將該等形成為四㈣形狀之框材 20、20_"縱橫組裝成格子狀纟,以以台組裝構件之格子 面成為大致平行之方式組裝,藉此構成基座12。 151080.doc -16· 201124317 。於基座12之所㈣面上1高機21()(參關9)之一對叉 木2 12所插入之開口部22、22(參照圖1)於基座a之一個側 面至v δ又置有2處。於基座12上固定有載置板“,於該載 置板1 8之表面上設置有樹脂等表敷材。 定位構件14係配置於基座12之4個側面中之裝載於下述 4載虞置3 G時成為收納體i Q之底面側之側面,並藉由螺检 19固定於基座12而無法容易地裝卸。&,於定位構件μ之 下部形成有缺D14A,以免堵塞叉架212所插人之基座12之 開口部22。 其次,如圖2之第2步驟所示,以覆蓋基座12上所載置之 板狀積層物15之上表面與4個側面之方式覆蓋上一片片材 17。於在板狀積層物15之4個側面垂下之片材部分i7A中之 位於定位構件14側之部分,如圖3所示形成有由片材口覆 蓋板狀積層物15時定位構件14貫穿之狹縫孔23。又,於狭 縫孔23之周圍鋪上加強片材24進行加強以防止狹縫孔㈣ 開。藉此,於以將板狀積層物15抵接於定位構件14之方式 積層於基座12後由片材17覆蓋時,可由片材17完全覆蓋板 狀積層物1 5之4個側面。 所使用之片材丨7亦可為普通之樹脂製片材,但更佳為除 電片材。若為除電片材,則於以具有下述裝載裝置3〇之拖 車等搬運機構搬運收納體10時,即便因搬運中之振動等導 致玻璃板G上產生靜電’亦可將靜電去除。因此,減輕使 用者難以自玻璃板G剝離間隔紙13之問題。除電片材可使 用市售者,例如可使用ACHILLES(股份)製造之AChilles 151080.doc 201124317 靜電F(厚度(Μ〜〇·5 mm)。再者,若為具有與ach㈣$ (股)製造之ACHILLES靜電F相同程度之除電效果之片材, 則亦可使用任何片材。 繼而,如圖4之第3步驟所示’於將覆蓋板狀積層物15之 片材17之垂下之片材部分17A向基座12側拉伸而使片材u 緊繃之狀態下,藉由複數個橫壓構件16隔著間隔紙13與片 材17夾持板狀積層物15之側面。藉此,藉由緊繃狀態之片 材17而將板狀積層物15—體地固定於基座12。於該情形 時,由以相對向之方式所配置之橫壓構件16與橫壓構件16 彼此夾持板狀積層物15之側面。另一方面,與定位構件14 相對向地配置之橫壓構件16係在與定位構件14之間夾持板 狀積層物1 5之側面。 藉此,形成將複數片玻璃板G以積層狀態收納於收納容 器11之收納體10。 圖5係藉由圖6所示之橫壓構件16隔著間隔紙13與片材17 夾持板狀積層物15之側面之剖面圖。於板狀積層物15之側 面垂下之間隔紙部分13A與垂下之片材部分17A係於板狀 積層物1 5之側面方向受到按麼。因此,藉由橫壓構件1 6 , 隔著垂下之片材部分17A按壓垂下之間隔紙部分13A之重 合之部分。於該情形時’更佳為使垂下之片材部分17A垂 下至載置板1 8之側面,並由橫壓構件16與載置板1 8之側面 夾持片材部分17A。藉此,片材17或橫壓構件16不會直接 與板狀積層物15之側面接觸,既可利用間隔紙13之柔軟性 保濃玻璃板G ’又可確實地按壓板狀積層物15之4個側面或 151080.doc 201124317 載置板1 8之側面。 於圖4中,於板狀積層物15之除具有定位構件14之側面 以外之3個側面中,在定位構件14之對向側面配置有2個橫 壓構件16且在左右側面配置有3個橫壓構件16,但並不限 定於此數量。 又,於圖5及圖ό中表示有在前端部具有水平之水平板 16Β之橫壓構件16,但如圖7所示,亦可為僅具有垂直板 16Α而不具有水平板16Β之橫壓構件16。於本發明中,由 於藉由片材17將板狀積層物15按壓於基座⑽而固定,因 此不需要以橫塵構件16之水平板16β按壓板狀積層物此 上表面。進而換言《,較⑮為使板狀積層物15之上表面與 水平板16Β之上表面分開而使水平板16丑不會按壓板狀積 層物15之上表面之狀態。又,較佳為於橫塵構件μ之板狀 積層物側貼設有橡膠等緩衝構件2 1。 較佳為,橫壓構件16係以將玻璃板G裝載於基座12時不 會成為妨礙之方式裝卸式地安裝於載置板18。 裝卸機構係如圖6及圖7所示,於與載置板18接觸之橫壓 構件16之底板16C上所形成之貫穿孔16〇及載置㈣上所 形^之貫穿孔18A插通有蝶形螺栓25。又,於蝶形螺检Μ 之前端部,自載置板18側依序螺合有間隔件26、焊接螺p —邑福)27、蝶形螺帽I另一方面,於蝶形螺栓二 之貝。P25A與載置板18之間,隔著塾片31插通有3片盤 …藉此’當使蝶形螺栓25於緊固方向旋轉日寺,蝶形螺十 28接近载置板18側,因此藉由底板㈣與焊_帽27失^ 151080.doc -19· 201124317 載置板18 ’並且3片盤簧29彈性變形而向蝶形螺栓25之頭 部25 A與載置板丨8分開之方向施加壓靠力。藉此,即便將 橫壓構件16設為裝卸式,亦不會因收納體10之搬運中之振 動等導致蝶形螺栓25旋轉而產生相對於載置板18之固定不 良。 如上所述構成之本發明之板狀體之收納體10可發揮以下 效果。 (1) 由於以緊繃狀態之片材17將板狀積層物15_體地固 定於收納容器11之基座12,因此對板狀積層物15均等地施 加緊繃狀態之片材17之緊固力。藉此,以拖車等搬運機構 搬運收納體10時之振動或撞擊所造成之應力不會部分性地 集中於板狀積層物15之一部分上。 (2) 於以拖車等搬運機構搬運收納體10之過程中,即便 因振動等導致板狀積層物15欲在上下方向移動,亦會由於 在板狀積層物15之侧面周圍垂下之間隔紙部分UA與覆蓋 板狀積層物15之緊繃狀態之片材17被夾在板狀積層物^與 橫壓構件16之間,且隔著間隔紙13與片材17而將板狀積層 物15—體地固定於基座12,從而可抑制板狀積層物Η之上 下移動。 (3) 又,即便於因搬運中之振動等導致板狀積層物u欲 在橫方向移動之情形時,亦會由於隔著間隔紙13與片材Η 而將板狀積層物15—體地固定於基座12,從而可抑制板狀 積層物15之橫方向之移動。進而,垂下之間隔紙部分13A 與垂下之片材部分17A被炎在板狀積層物i5與橫壓構件b 151080.doc •20· 201124317 之間藉此間隔紙13與片材17發揮相對於板狀積層物〗5之 橫方向移動之緩衝作用。 (4)又,使用除電片材作為片材丨7,藉此即便因搬運中 之振動等導致玻璃板G上產生靜電,亦可去除靜電,因此 減輪使用者難以剝離密接於玻璃板〇之間隔紙13之問題。 因此,本發明之板狀體之收納體1 〇係即便為大型玻璃板 G,亦可防止搬運時之振動或撞擊所引起之玻璃板G之損 傷’並且使用者可簡單地自玻璃板G剝離間隔紙13。 貫卜、上’使用縱橫尺寸超過約3000(mm)之尺寸之母玻璃 基板且板之厚度為1 mm以下之玻璃板G而形成本發明之板 狀體之收納體,並利用具有以下說明之裝載裝置之拖車輸 送350次時,1片玻璃板G都不破損。 附言之,於利用圖28所示之老虎鉗方式之按壓機構將板 狀積層物固定於收納容器之情形時,玻璃板G之破損頻率 車父兩。 而且’以上述方式形成之板狀體之收納體丨〇係如圖8所 示堆疊於倉庫内。於此,對堆疊收納體丨〇之機構進行說 明。 士圖1所示’於基座12之上表面及下表面之4個角部分別 形成有凹狀之嵌合孔33,於該4個嵌合孔33中豎立著支柱 4 1 °支枉41係包括直徑較大之軀乾部4丨八及直徑細於該躺 乾部41A之前端側之導引部41B,導引部41B之突出端形成 為四棱錐形狀或圓錐形狀。另一方面,基座12之嵌合孔Μ 之上表面側為可收納軀乾部41A之形狀,且底面側形成為 151080.doc 201124317 嵌合於導引部41B之形狀。藉此,將4根支柱41分別賢立於 基座12之上表面之4個角部之嵌合孔33中,並使形成於第2 丰又之收納體10之基座12之下表面之嵌合孔33嵌合於4根支 柱41之導引部41B。藉此’堆疊有2段之收納體1〇,因而以 相同之順序逐步增加堆疊。圖8係將收納體丨〇堆疊3段之 圖。 又’於軀乾部41A與導引部41B之邊界面貼設有橡膠等 撞擊吸收襯墊45 ’以緩和在將收納體丨0堆疊多段時自上側 收納體10傳遞至下侧收納體10之撞擊。如此,將收納體1〇 以水平狀態堆疊,藉此與縱向配置收納體1〇之情形相比, 可有效地利用倉庫之保管空間。 於以堆高機210將收納體1〇自倉庫搬送至拖車等搬運機 構之情形時,如圖9所示,以維持堆疊之狀態,將堆高機 210之叉架212插入至基座12之開口部22,並以水平狀態搬 送至拖車。而且,以設定位構件14為底面之傾斜狀態,將 收納體10裝載於拖車上所搭載之裝載裝置3〇。 其次,對本發明之板狀體之裝載裝置3〇進行詳細說明。 再者,裝載於裝載裝置30之板狀體之收納體1〇並不限定於 上述本發明之板狀體之收納體。 [板狀體之裝载裝置] 於圖11中表示有搭載著裝載裝置3〇之拖車(搬運車輛)2〇〇 之左側視圖。又,於圖12中表示有將收納體1〇以水平狀態 保持於拖車200上所裝載之裝載裝置3〇之裝載裝置3〇之前 視圖,進而,於圖丨3中表示有將收納體丨〇以傾斜狀態保持 151080.doc -22· 201124317 於拖車200上所裝载之裝载 ® * 土 之裝載裝置3〇之前視 圖。再者,收納體10係於圖12 ]Λ^ - ^ ^ ^ , 丨炙水千狀態下,藉由圖 14所不之堆南機21〇而載置於 搬出。 针。34,並且自傾斜台34 古如圖U所示,褒載裝置3〇係以隔開特定間隔且並行設置 有3台之狀態搭載於拖車之底板面2Q2。若進行詳述, 則3台裝載裝置3〇、30俜以相 …係以相對於基台32而軸支著傾斜 口 34之圖12、圖13之站36夕缸士人t 季之軸方向與由圖11之箭頭A所示 之拖車細之行進方向一致之方式排成一列地搭載於底板 面2〇2。又’ 3台裝載|置3()、3()底經由在相鄰之裝載農 置30、30之間上下配置之鋼材(連結構件㈣4 連結而 搭載於底板面202。再者’於圖u中表示著3台裝載裝置 3〇、30...,但該裝載裝置數量既可為2台,亦可為】台。 又,於圖η中例示有被牽引車牽引之拖車2〇〇,但搭^有 裝載裝置30之搬運車輛既可為拖車之裝貨台,亦可為搭載 於拖車之掛車。 且說,拖車200係將3台裝載裝置3〇、3〇…以經由鋼材 2〇4連結之狀態搭載於底板面2〇2,故而與將3台裝載裝置 30、30·..作為i台重量物裝置搭載於底板面2〇2之情況等 同。藉此,對底板面202均等地施加3台裝載裝置3〇、3〇〜 之負重。針對此’若將複數台裝載裝置3〇、3〇.··不經由鋼 材204連結而是分別個別地搭載於底板面2〇2,則對底板面 202施加偏負重,故而有時會導致底板面2〇2波狀變形。 如圖1 2、圖1 3所示,實施形態之拖車2〇〇如下之翼式拖 151080.doc -23- 201124317 車’其包括侧面及車頂部分以安裝於拖車200之車頂之中 央樑206之鉸鏈207為中心摺疊式地開啟及關閉之一對翼 208、208。於此類拖車200之情形時,因底板面2〇2之上述 變形亦會引起中央樑206波狀變形,故而存在無法順利地 將翼208、208開啟及關閉之問題。 針對此,實施形態之拖車2〇〇中,將3台裝載裝置3〇、 30…經由鋼材204連結而作為1台重量物裝置搭載於底板面 202,因此對底板面202均等地施加負重,由於僅底板面 202均等地向下方移位,因此中央樑2〇6不會波狀變形,藉 此,具有順利地進行翼208、208之開啟及關閉之優點。 其次’對裝載裝置3 0進行說明。 如圖12、圖13所示’裝載裝置3〇主要包括基台32及傾斜 台34。該基台32及傾斜台34係以例如鐵或不鏽鋼作為材料 而構成。 基台32係隔著下述之複數個隔振體(衰減器)38、38…及 限制裝載裝置30相對於底板面2〇2之左右擺動量之圖15之 盤簧機構(彈性體)40 ’而搭載於如圖13所示設置於拖車2〇〇 之底板面202之中央部之基座板214。又,藉由在底板面 202之中央部設置基座板214而使基座板214之兩側底板面 202之高度降低有基座板214之高度程度,利用該高度差, 如圖13所不傾斜狀態之傾斜台34之下部進入高度較低之底 板面202。藉此,即便為大型收納體1〇,亦可傾斜裝載於 依據交通法規而規定了車寬及車高之拖車2〇〇。 於基台32之上部設置有如圖16所示傾動自如地軸支著傾 151080.doc -24- 201124317 斜c» 34之軸承42、42。軸承42係藉由螺栓而固定於基台32 之上部兩側之各2個部位,傾斜台34經由軸36而旋動自如 地軸支於該等轴承42、42。藉此,傾斜台34係相對於基台 32在圖16之傾斜姿勢肖圖17所示之水平姿勢之間進行傾 動又’軸36係經由轴承37、37而保持於傾斜台34之下部 之大致中央部。 如圖13所示,於傾斜台34設置有承接板35,該承接板μ 於傾斜台34為傾斜姿勢時承接傾斜台34上所裝載之收納體 10之下端面。X,於傾斜台34之橫緣部設置有如圖19所示 限制傾斜台34上所裝載之收納體1()之左右偏移之限制板 (壁部)39。將於下文中進行敍述,當藉由圖18及圖19所示 之左右偏移限制裝置(左右偏移限制機構)46按壓傾斜台Μ 上所裝載之收納體10之一方之緣部1〇Β時收納體之另 一方之緣部1〇Α按壓於限制板39,從而可確實地防止收納 體10相對於傾斜台34之左右偏移。再者,所謂傾斜台34之 橫緣部,係指與圖Π所示之拖車2〇〇之行進方向正交之方 向之緣部。 實施形態之裝載裝置30係除上述基台32、傾斜台34、γ 振體38、盤簧機構40以外,還包括使傾斜台34傾動之螺旋 千斤頂(傾動機構)44、圖18及圖19所示之左右偏移限制= 置46、圖20及圖21所示之收納體固定裝置(收納體固定機 構)48、以及圖22及圖23所示之傾斜狀態保持裝置(傾斜狀 態保持機構)50。 ' 圖24係表示相對於基台32之隔振體3 8與盤簧機構仂之配 151080.doc •25- 201124317 置位置之基台3 2之概略俯視圖β 如該圖24所示,相對於俯視矩形狀之基台32,隔振體38 係分別配置於基台32之角部,並且於長邊方向等間隔地配 置有4台,於短邊方向配置有2台。又,盤簧機構4〇係於自 土 σ 之角4起在基台32之長邊方向延伸之托架52上各配 置有1台。 隔振體38係如圖25之側視圖及圖26之縱剖面圖所示,包 括3個減震器(damper)54、54 、底板%及頂蓋58。 減震器54係藉由在減震器54之中心軸方向(圖25之〇方 向)逐縮而發揮衰減作用且形成為圓環狀之橡膠製者。該 等減震态54、54...係插通至立設於底板56之軸6〇而於上下 方向層疊。底板56係如圖1 5所示形成為矩形狀,其角部分 別藉由螺栓62而固定於基座板214。 如圖26所不,頂蓋58係上部封閉且下部開放之大致圓筒 狀物,自上部覆蓋插通至軸6〇之減震器54。又,於頂蓋Μ 之下部外周部之以頂蓋Μ之中心軸(與圖方向相同之 方向)為中心之對稱位置上,在水平方向延伸有一對托架 64。在形成於該等托架64之孔(未圖示)插通著立設於 二板56之螺栓66,於該螺栓66上緊固著螺帽⑽,藉此將頂 蓋58隔著減震器54、54...而固定於底板56。 藉㈣检7。而固定於基台32之下部。 係 藉由如此構成,3個減震器54、54…由底板兄與頂蓋58 持又,以將3個減震器54、54…於減震器54之中心軸 方向壓縮之方式緊固螺帽68 ’藉此設定為在初始階段發揮 15]〇S〇4doc -26- 201124317 減震器54、54…之衰減作用。因此,藉由該等隔振體38、 38…之衰減作用而衰減自拖車2〇〇之底板面2〇2傳遞至裝載 裝置30之基台32之振動,故而防止該振動所引起之玻璃板 G之損傷。 另一方面’如圖15、圖27所示’盤簧機構4〇係包括夹住 托架52而於上下分別並行配置有3段之盤簧㈠單力:j 〇 ton)72、72、72。該盤簧機構4〇係除盤簧72、72、72以 外’還包括螺桿軸74、墊片76、76…、套管78、螺帽80、 8〇…。盤菁72、72、72亦可串列配置。串列或並行配置與 否,根據所需之彈簧之反作用力來決定即可。 螺才干軸74係立設於如圖15所示形《為矩形狀之支承板 82 °玄支承板82之角部係藉由螺栓84而固定於基座板 214。 如圖27所示,於螺桿軸74夾住托架 一…J Z FUA亍H , 叫〜% 巾目8〇、8〇 ’亚於該螺帽80之上部隔著墊片76插通著下側之 盤Ί、72、72。X ’於上述盤簧72之上部,隔著塾片76 插、著套s 78 °於該狀態下’螺桿軸74係插通至形成於托 架52之孔53。而且,上侧之3片盤簧72、72、72係夾住托 而插通至螺桿軸74 ’於該盤簧72之上部隔 者垫片7 6螺合有虫累㈤c Λ 。Λ 累巾目80、80。於該狀態下,將上下螺帽 8〇 8〇於相互接近之方向緊固於螺桿軸74,藉此6片盤簧 性72·.·進仃彈性變形’盤簧機構40發揮特定之負重特 所謂盤簧機構40之負 重特性係指基台32相對於拖車2〇〇 151080.do'c -27- 201124317 之底板面202進行左右擺動時,可防止圖丨3之傾斜狀態之 傾斜台34之上端34A與拖車200之翼(壁面)2〇8碰撞之負重 特性。例如,當自圖27(A)所示之基台32之水平狀態,如 圖27(B)所不基台32逐步進行α。左右擺動時,圖27(B)所示 之右側盤簧機構40且托架52之上側之3片盤簧72、72、72 承丈擺動而彈性變形,並且圖27(B)所示之左侧盤簧機構 40且托架52之下侧之3片盤簧72、72、72承受擺動而彈性 變形。設定此時之經彈性變形之6片盤簧72、72 .··之彈性 復原力(負重特性)超過因基台32之左右擺動所產生之力。 藉此,當基台32進行α。左右擺動時,藉由上述彈性復原力 恢復成原先之水平狀態,因此不會超過α。進行左右擺動。 亦即’於實施形態之裝載裝置3〇中,將用以防止傾斜狀態 之傾斜台34之上端34Α與拖車2〇〇之翼208碰撞之容許最大 擺動角度設定為α°。 藉此,根據實施形態之裝載裝置3〇,藉由盤簧機構4〇之 負重特性,於裝載装置3〇進行左右擺動時,可防止傾斜狀 態之傾斜台34之上端34Α與拖車2〇〇之翼208碰撞,故而防 止該碰撞所引起之玻璃板G之損傷。 其次,參照圖16、圖π,對使傾斜台34傾動之螺旋千斤 頂44進行說明。 螺旋千斤頂44係包括缸體86 '螺桿(桿)88及馬連(桿驅動 部)9〇,藉由馬達90之動力而使相對於缸體86進行伸縮之 螺桿88伸縮,藉此可將傾斜台34之姿勢變更為圖“所示之 傾斜姿勢及圖17所示之水平姿勢。 151080.doc -28- 201124317 缸體86係經由轴94插動自如地設置於托架92,該托架% 係女裝於基台32之側面中央部。將缸體86之摇動方向設定 為傾斜台3 4之傾動方向。 螺# 88係收納於虹體86,並且相對於缸體%伸縮自如地 螺杯8 8之上&部係經由轴9 8旋動自如地支持於 傾斜台34之下表面且於傾斜時成為傾斜台%之上端μ之 位置處所設置之托架96。又,螺桿88係經由齒輪箱ι〇〇内 之齒輪(未圖不)可傳遞動力地連結於馬達9〇,藉由經由上 述ω輪傳遞馬達9〇之旋轉動力而相對於缸體%進行伸縮動 作亦即,當螺桿88進行伸長動作時,如圖16所示螺桿88 將傾斜台34向上推,藉此傾斜台34成為傾斜姿勢,當螺桿 88進仃收縮動作時,如圖17所示傾斜台下降而成為水平 姿勢。追隨此時之傾斜台34之傾動,缸體86以軸94為中心 摇動,藉此順利地進行利用螺旋千斤頂44所進行之傾斜台 3 4之傾動動作。 根據實施形態之螺旋千斤頂44,藉由馬達9〇使螺桿Μ相 對於缸體86伸長,藉此可使傾斜台34容易地成為傾斜狀 態,亚藉由使螺桿88收縮而可使傾斜台34容易地成為水平 ' 狀態。 其··人’參照圖1 8及圖1 9,對左右偏移限制裝置46進行說 明。 左右偏移限制装置4 6包括橡膠或樹脂製之圓柱狀之襯墊 1〇2及襯墊驅動部1〇4。襯墊驅動部104係包括馬達106、萬 接頭專。馬達106係藉由螺栓112而固定於傾斜台34 151080.doc -29- 201124317 之側面上所固定之托架110,且於馬達106之旋轉軸114連 結有萬向接頭108之輸入軸116。於萬向接頭108之輸出軸 118,連結有襯墊固持件120之軸122。該軸122係旋動自如 地支持於傾斜台34之側面上所固定之托架124。 襯塾固持件120係包括連結於軸122之下部托架126,於 該下部托架126上安裝有加強用之圓柱體128及襯墊1〇2之 各自之下部。圓柱體12 8係配置於與軸12 2相同之軸上,襯 墊102係配置於中心軸1 〇2A相對於軸122之中心軸122A而 偏移特定量之位置。又’圓柱體128及襯墊1〇2之各自之上 部係藉由上部托架13 0而連結。藉此’根據該左右偏移限 制裝置46,當馬達106驅動時,其動力自萬向接頭ι〇8傳遞 至軸1 22而使襯塾固持件120以軸122為中心進行旋動。而 且’於襯墊102向圖18、圖19之由實線所示之位置移動 時,以襯墊102按壓傾斜台34上所裝載之收納體1〇之一方 之緣部1 0B且將收納體1 〇之另一方之緣部丨〇A按壓於傾斜 台34之限制板39之方式,設定襯墊ι〇2之安裝位置。 因此,根據如此構成之左右偏移限制裝置46,藉由馬達 106而使襯墊102向圖18、圖19之由實線所示之位置移動, 由此,藉由襯墊102而將收納體10之一方之緣部1〇A按壓於 傾斜台34之限制板39,因此可藉由襯墊1〇2及限制板39限 制收納體10相對於傾斜台34之左右偏移(拖車2〇〇之行進方 向之偏移)。藉此,可容易地防止收納體丨〇相對於傾斜台 34之左右偏移,從而可防止左右偏移所引起之玻璃板G之 損傷。又’於自傾斜台34取出收納體10時,藉由概塾驅動 151080.doc -30 - 201124317 部104而使襯墊1G2如圖18之雙點虛線所示,自收納體10之 另方之緣#1〇3進行退避移動,解除藉由概塾⑽及限制 板3 9之左右偏移限制即可。 其次’參照圖2 〇、m 9 1,#4* n ^从 圖21對收納體固定裝置48進行說 明。 收納體固定裝置48制闕^上所錢之㈣體10固 定於傾斜台34並且解除該固定之裝置,主要包括掛鉤132 及掛鉤驅動部134。掛鉤132係經由固定於傾斜台34之下表 面且於傾斜姿勢時(參照圖13)成為上端34A之位置之下表 面的導軌136而移動自如地支持於傾斜台34。亦即,掛鉤 132係形成為大致L字狀,於其前端部設置有銷us。該銷 138係經由形成於收納體1〇之基座12之下部之開口部而 裝卸自如地扣合於基座12上所設置之剖面為L字狀之扣合 部140。此時,於設置於扣合部14〇之樹脂制之襯墊ΐ4ι密 接有銷138,由此,藉由掛鉤132.而無晃動地按壓傾斜台 3 4 〇 另一方面’導軌136係移動自如地支持於如圖20所示掛 鉤13 2相對於扣合部14 〇之扣合位置與如圖2 1所示掛鉤1 3 2 相對於扣合部140之退避位置之間,且形成有對旋動自如 地設置於掛鉤132之基端部之導輥142進行導引之圓弧狀之 槽144。因此,掛鉤132係沿著槽144進行移動,藉此於圖 20所示之扣合位置與圖2 1所示之退避位置之間進行往返移 動。再者,符號146係旋動自如地設置於掛鉤132之導輥, 藉由該導輥146與導輥142夾持槽144,藉此可使掛鉤132穩 151080.doc •31 - 201124317 定地移動。 掛鉤驅動部134係包括具有伸縮之桿148之動力缸體 150。動力缸體150之基端部係經由銷154而摇動自如地與 固定在傾斜台34下表面之托架152連結,藉此動力缸體150 相對於傾斜台34於上下方向揺動。又,於桿148之前端 部’經由銷156旋轉自如地連結有掛釣132之導棍142。 因此,根據如此構成之收納體固定裝置48 ,當藉由動力 缸體15〇而使桿I48伸縮時,導輥M2沿著導軌136之槽ι44 移動,藉此掛鉤1 32於圖20所示之扣合位置與圖21所示之 退避位置之間進行往返移動,與該動作連動,動力缸體 150以銷154為支點進行摇動。藉此,於將收納體1〇固定於 傾斜台34之情形時如圖20所示使桿148收縮,於解除該固 定之情形時如圖21所示使桿148伸長。藉此,可容易地將 收納體1 0固定於傾斜台34以及解除固定。 其次,參照圖22及圖23對傾斜狀態保持裝置5〇進行說 明。 傾斜狀態保持裝置50係將傾斜台34保持為傾斜姿勢(參 …圖13)之裝置’其包括具有進行伸縮之銷158之動力缸體 (銷驅動部⑽及形成有與銷158扣合之孔162的筒狀之扣合 部 16 4 〇 動力虹體160係如圖12、圖13所示固定於基台32,, 以銷⑼與㈣平行之行配n 164係朝下固定於傾斜台34 口1 為傾斜姿勢時二 且於傾斜台34, 勢時,配置於如圖23所示孔162與銷158之前, I51080.doc •32· 201124317 相對向之位置。又’於孔1 62配置有襯塾1 66,且於該襯墊 166之上表面形成有對銷ι58之插通進行導引之¥槽168。 又’襯墊166係藉由插入至扣合部I”内之串列3段之盤 簧(彈力:467 kgf)l7〇之壓靠力而向封閉孔162之方向壓 罪,並且藉由包含長孔1 7 2及銷1 7 4之位置限制構件而將封 閉孔162之方向之位置限制為圖23之位置。長孔172係沿著 扣合部164之軸方向而形成,銷174係固定於襯墊166並且 滑動自如地扣合於長孔172。因此,當盤簧17〇之壓靠力作 用於襯墊166時,襯墊166係藉由該壓靠力而向封閉孔162 之方向上推,但由於銷174抵接於長孔172之上緣,故而將 襯墊166之初始位置設定為圖23之位置。於該狀態下,當 藉由動力缸體160而使銷158伸長時,銷158係自孔162之入 口進入,而且,將其前端錐面158A按壓於襯墊166之V槽 168。而且,藉由銷158之推進力,使襯墊166 一面抵抗盤 簧170之壓Λ力向下推,一面使銷158如圖。所示自孔Μ? 之出口大出而扣合於孔〖62。藉此,經由傾斜狀態保持裝 此時 銷 置50而將傾斜台34以傾斜姿勢保持於基台32 而向上方推動’因此無晃動地 158係藉由盤簧170之壓靠力 扣合於孔1 6 2。 因此,根據如此構成之傾斜狀態保持裝置5〇,藉由動力 缸體160使銷158伸長而扣合於扣合部164之孔162,僅如此 便可容易地將傾斜台34保持為傾斜狀態…於將傾斜台 34之姿勢欲變更為水平妝能 — ° 卞狀心之情形時,猎由動力缸體160 使銷158收縮,從而M口合部164之孔162拔出銷158即可。 151080.doc -33- 201124317 其次,對如上所述構成之裝載裝置3〇之作用進行說明。 再者,已於上文中對螺旋千斤頂44、左右偏移限制裝置 46、收納體固定裝置48及傾斜狀態保持裝置5〇之動作進行 了敍述,故而於此省略其動作進行說明。 首先,於將收納體10裝載於拖車2〇〇上所搭载之裝载裝 置30之情形時,首先,藉由螺旋千斤頂44使傾斜台“相對 於基台32傾動而保持為水平狀態,於該狀態下,將收納體 10如圖14所示藉由堆高機21〇而載置於傾斜台34。藉此, 即便為大型玻璃板G,亦可將該收納體1〇容易地裝載於傾 斜台34。 其次,於藉由拖車200搬運載置於傾斜台34上之收納體 10之情形時’首先’藉由圖18、圖19所示之左右偏移限制 裝置46限制收納體10相對於傾斜台34之左右偏移。藉此, 即便自拖車200對傾斜台34施加振動或撞擊,收納體丨❶亦 不會相對於傾斜台34進行左右絲,因此可防止左右偏移 所引起之玻璃板G之損傷。此後,藉由螺旋千斤頂44使傾 斜台34傾動而將其姿勢變更為傾斜狀態。其次,藉由圖 20、圖21所示之收納體固定裝置48之掛鉤132而將收納體 10固定於傾斜台34。於該姿勢變更後,收納體10係藉由收 、’内體固疋裝置4 8之掛鉤13 2固定於傾斜台3 4,故而收納體 1〇不會自傾斜台34偏移或者脫落,藉此,可將收納體1〇穩 定地變更為傾斜姿勢。繼而,藉由圖13、圖14所示之傾斜 狀態保持裝置50之銷158,將傾斜台34保持為圖13之傾斜 狀態。藉由以上動作,完成收納體1〇之搬運準備。 151080.doc -34- 201124317 斜狀=載衣置3°之搬運時之形態中,因收納體1(3係以傾 :以運…即便為大型玻璃板亦可依據現行之 父通法規以拖車_進行搬運。X,由於傾斜台34係 糟由傾斜狀態保持裝置5G保持為傾斜狀態,因此即便搬運 夺振動或左右擺動傳遞至基台^,傾斜台Μ亦不會相對 於基台32進行晃動。藉此,可防止上述錢所引起之玻璃 板G之損傷。 而且,於藉由拖車200搬運收納體1〇時,自拖車2〇〇傳遞 至裝載I置3G之振動係藉由配置於基台32與拖車之基 座板214間之隔振體38、38. •得以衰減而不會直接傳遞二 裝載裝置3G’因此可防止上述振動所造成之玻璃板G之損 傷。又,自拖車2〇〇施加至裝載裝置3〇之左右擺動係與左 右偏移限制裝置46之左右偏移防止效果互起作用而使配置 於基〇 32與拖車2〇〇之基座板214間之複數個盤簣機構4〇之 盤*72、72··.彈性變形’藉此抑制其左右擺動量,故而可 將收納體10穩定地搬運,藉此,可防止左右擺動所引起之 玻璃板G之損傷。 藉由上述說明,根據實施形態之裝载裝置3 〇,即便為大 型玻璃板G亦可效率佳地實施裝載操作,並且藉由包括左 右偏移限制裝置46、隔振體38及盤簧機構40之破損防止機 構之作用,可確實地防止搬運時之振動或撞擊所引起之玻 璃板G之損傷。 另一方面’根據實施形態之拖車2 0 〇,裝載裝置3 〇係以 軸支著傾斜台34之轴36之軸方向成為行進方向之方式私載 151080.doc -35- 201124317 來輸送收納體10。藉由以該姿勢將裝载裝置3〇搭載於拖車 2〇〇,即便為大型玻璃板G,亦可依據現行之道路交通法規 進行搬運。 —對本_請案進行了料說明,又參照特定之實施態樣進 行了說明,但熟悉此技藝者明白只要不脫離本發明之精神 及範圍,便可施加各種變更或修正。本申請案係基於⑺ 年1月Π日申請之日本專利申請案(曰本專利特願2010-005069)而成者,將其内容作為參考引用於此處。 [產業上之可利用性] 作為本發明之利用例,例示了玻璃板G,但並不僅限於 玻璃板G,若為板狀體,即便為樹脂板、金屬板等板狀體 亦可應用本發明之板狀體之收納體及板狀體之裝載裝置以 及搬運車輛,但若考慮到穩定地、效率佳地又無破損地安 全搬運大型且較薄之板狀體,則對液晶顯示器用之第1〇代 母玻璃基板特別有效。 【圖式簡單說明】 圖1係形成本發明之板狀體之收納體之第1步驟,且係表 示切去一部分後之玻璃板之立體圖。 圖2係表示形成本發明之板狀體之收納體之第2步驟之立 體圖。 圖3係說明覆蓋板狀積層物之片材之說明圖。 圖4係表示形成本發明之板狀體之收納體之第3步驟之立 體圖。 圖5係說明本發明之板狀體之收納體中之間隔紙、片材 151080.doc -36· 201124317 及橫壓構件之關係之說明圖。 圖6係說明橫壓構件之說明圖。 圖7係說明橫壓構件之另一態樣之說明圖。 圖8係將板狀體之收納體以堆疊狀態保管於倉庫等之情 形之說明圖。 圖9係說明搬運板狀體之收納體之情形之姿勢之說明 圖。 圖1 0係說明將板狀體之收納體裝載於裝載裝置之情形之 姿勢之說明圖。 圖11係搭載有裝載裝置之拖車之左側視圖。 圖12係將收納體以水平狀態保持於拖車上所裝載之裂 裝置之裝載裝置之前視圖。 ^ 圖13係將收納體以傾斜狀態保持於拖車上所裝 裝置之裝載裝置之前視圖。 、載 圖14係表示使用堆高機之收納體之裝載方法之說 圖1S係說明隔振體與盤簧機構之配 .。 大立體圖。 幻立置之主要部分放 圚i 〇你衣 圖 圖 圖 圖17係表示水平姿勢之傾斜台之 羞載裝置之概略 立體 圖18係表示左右偏移限制装置之動作之主 部分立體 圖 圖19係左右偏移限制裝置之側視 151080.doc •37· 201124317 圖2〇係表示藉由收納體固定裝置而將收納體固定於傾斜 台之狀態之主要部分側視圖。 圖21係表示解除收納體相對於傾斜台之固定之狀態之主 要部分侧視圖。 圖22係表示藉由傾斜狀態保持裝置而將傾斜台保持為傾 斜姿勢之狀態之主要部分立體圖。 圖23係表示解除傾斜台之傾斜姿勢之保持之狀態之主要 部分立體圖。 圖24係表不隔振體與盤簧機構之配置位置之基台之俯視 圖。 圖25係隔振體之側視圖。 圖26係隔振體之縱剖面圖。 圖27(A)、(B)係表示盤簧機構之動作之剖面圖。 圖2 8係說明將板狀積層物固定於收納容器之先前方法之 說明圖。 【主要元件符號說明】 10 收納體 10A 另一方之緣部 10B 一方之緣部 11 收納容器 12 基座 13 間隔紙 13A 間隔紙部分 14 定位構件 151080.doc - 38 - 201124317 14A 缺口 15 板狀積層物 16 橫壓構件 16A 垂直板 16B 水平板 16C 底板 16D 貫穿孔 17 片材 17A 片材部分 18 載置板 18A 貫穿孔 19 螺栓 20 框材 21 缓衝構件 22 開口部 23 狹縫孔 24 加強片材 25 蝶形螺栓 25A 頭部 26 間隔件 27 焊接螺帽 28 蝶形螺帽 29 盤簧 30 裝載裝置 151080.doc -39- 201124317 31 墊片 32 基台 33 嵌合孔 34 傾斜台 34A 上端 35 承接板 36 軸 37 軸承 38 隔振體 39 限制板 40 盤簧機構 41 支柱 41A 軀乾部 41B 導引部 42 軸承 44 螺旋千斤頂 45 撞擊吸收襯塾 46 左右偏移限制裝置 48 收納體固定裝置 50 傾斜狀態保持裝置 52 托架 53 孔 54 減震器 56 底板 151080.doc -40- 201124317 58 頂蓋 60 轴 62 螺栓 64 托架 66 螺栓 68 螺帽 70 螺栓 72 盤簧 74 螺桿軸 76 墊片 78 套管 80 螺帽 82 支承板 84 螺栓 86 缸體 88 螺桿 90 馬達 92 托架 94 軸 96 托架 98 軸 100 齒輪箱 102 襯墊 104 襯墊驅動部 151080.doc -41 201124317 106 馬達 108 萬向接頭 110 托架 112 螺栓 114 旋轉軸 116 輸入軸 118 輸出軸 120 襯墊固持件 122 軸 122A 中心軸 124 托架 126 下部托架 128 圓柱體 130 上部托架 132 掛鉤 134 掛鉤驅動部 136 導軌 138 銷 140 扣合部 141 襯塾 142 導輥 144 槽 146 導輥 148 桿 -42 151080.doc 201124317 150 動力缸體 152 托架 154 銷 156 銷 158 銷 158A 前端錐面 160 動力缸體 162 子L 164 扣合部 166 襯墊 168 V槽 170 盤簧 172 長孑L* 174 銷 200 拖車 202 底板面 204 鋼材 206 中央樑 207 鉸鏈 208 翼 210 堆高機 212 叉架 214 基座板 G 玻璃板 151080.doc -43BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a storage container and a storage body for a plate-shaped body, and a loading device and a transportation vehicle for the plate-shaped body, and more particularly to a liquid crystal display or a plasma A large-sized glass substrate such as a plasma display, and a storage container in which a large-sized glass plate of an intermediate product in the middle of a manufacturing process is stored in a stacked state, a storage body to be accommodated, a loading device for loading the storage body, and a transportation vehicle on which the loading device is mounted . [Prior Art] In recent years, there has been an increasing demand for an increase in the size of glass substrates for FPD (Flat Panel Display) such as glass substrates for liquid crystal displays and glass substrates for plasma displays, and in particular, it is called the 10th generation. The size of the glass substrate is a large size of more than 3000 mm on one side. A storage container in which such a large-sized glass plate is stacked and stored in a plurality of sheets, even if the short side is more than 3 mm, the width of the road traffic regulations when traveling on a road (such as a trailer or a trailer) is carried out. It is difficult to carry it in a horizontal state, and it is necessary to carry it in a state where the loading platform of the transport vehicle is inclined at a specific angle. Patent Document 1 discloses a loading device (a trailer for panel packaging) in which a panel is tilted and loaded. The loading device shown in Fig. 1 of Patent Document 1 includes a support table, a pair of support frames, a panel supporting member, and the like. The support platform includes a pivotal portion at the other part and the rear of the truck, and the pivotal support pivotally supports one of the top portions of the lower end of the support frame. Further, an intermediate hinge 151080 is provided on the outer side of the middle portion in the height direction of the pair of support frames. Doc 201124317 Chain, with which a pair of support frames are raised into a generally mountain shape during assembly. Further, a pair of support frames are provided with a panel supporting member that supports the panel in a leaning state. That is, the loading device of Patent Document 1 relies on the panel to be mounted on the support frame by standing up in one of the substantially mountain shapes. Patent Document 2 discloses a loading device (a trailer for sheet glass conveyance) in which a glass plate is tilted and loaded. In the loading device illustrated in Patent Document 2, an inclined supporting member is provided inside the detachable box trailer of the upper member. A glass support member having a cross section of a snap-shaped shape is fastened to the support member, and the glass support member is separated. Backfilling the sand layer and layering a plurality of glass plates. In the loading device, the glass supporting member on which the glass plate is mounted is hoisted by a lifting device such as a crane shown in Fig. 2 of Patent Document 2, and is housed inside the small trailer. In addition, it is necessary to fix the glass plate to the storage container so that the glass plate stored in the storage container is not broken or broken due to movement during vibration during transportation or the like. Therefore, the spacer sheets are usually sandwiched between the glass sheets in the laminated state so that the glass sheets do not directly rub against each other. Furthermore, as shown in FIG. 28, the top plate 4 is placed on the top surface of the plate-like laminate 3 which is laminated on the susceptor 2 of the storage container 1 in a laminated state, and is used by the upper plate of the storage container 1. 5 supported vise-type pressing mechanism 6 applies a pressing force (for example, 1〇8 kg/one part) to the four corners of the top plate 4 from top to bottom, so that the laminated glass is not transferred during the handling process. The glass plate is fixed to the storage container 1 in such a manner that the plate moves (for example, Patent Document 3). [Previous Technical Literature] [Patent Literature] 151080. [Patent Document 1] Japanese Patent Laid-Open Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. The problem to be solved by the invention] However, when the loading device disclosed in Patent Document 1 is used in loading the above-mentioned first-generation large-sized glass plate, there is a problem in that the inconvenience of operation of the large-sized glass plate is at the time of assembly. When the large glass plate is placed in a supporting state on a support frame that is erected into a substantially mountain shape, a large amount of labor is required for the operation, and the loading operation of the large glass plate cannot be performed efficiently. Moreover, the angle formed by the support frame and the vertical line is 10 degrees. If this angle causes the glass substrate to be inconsistent with the handling of the vehicle, it is necessary to apply a tilt of about 4 degrees. Further, the loading device disclosed in Patent Document 2 requires a lifting device such as a crane that lifts a glass supporting member on which a large glass plate is mounted. Therefore, there is a problem that the loading device of the large glass plate becomes large. Therefore, the loading devices of Patent Documents 1 and 2 have a problem that it is not practical as a device for loading a large glass plate having a vertical or horizontal width of more than 3 000 mm. On the other hand, in the loading device of Patent Document 1, the method of preventing the panel from being damaged by vibration or impact during transportation of the transport vehicle such as a trailer is set to 1 〇 by the inclination angle of the panel with respect to the support frame. It is a response, but it is not sufficient as a method of preventing damage due to a large impact or a left and right swing during transportation. Further, in the loading device of Patent Document 2, the same method is dealt with by backfilling the sand layer, but the method of preventing damage due to a large impact or a left-right swing during transportation is not charged. Doc 201124317 points. In the method of fixing the laminated body of the glass plate to the storage container by pressurizing the upper side from the top, the glass plate may not completely eliminate the gap or breakage of the glass plate caused by vibration or impact during transportation. The larger the size of the glass of the Tyuyo gossip, the frequency of the gap or the break in the handling. The method of the patent document 3 in Vietnam cannot actually handle the enlargement of the glass plate. Further, in order to prevent the glass sheet from being chipped or broken, the spacer paper is sandwiched between the glass sheets as described above, but the glass sheet is likely to generate static electricity. Therefore, there is a problem in that the glass sheet is generated due to vibration during transportation or the like. Static electricity makes it difficult for the user to peel the spacer paper from the glass plate. The problem of the chipping or breaking of the glass sheet caused by the vibration or impact during the transportation or the problem that the user is difficult to peel the spacer paper from the glass plate is not limited to the glass plate' but all the plate shape which is easily damaged and is likely to generate static electricity. Problems shared by the body. An object of the present invention is to provide a plate-like body which can reliably prevent the damage of a plate-like body caused by vibration or impact during operation even if it is a large-sized plate-like body, and can easily peel the spacer paper from the plate-like body. Storage container and storage body. Further, an object of the present invention is to provide a plate-shaped body loading device capable of carrying out a loading operation even for a large plate-shaped body and capable of preventing damage of a plate-like body caused by vibration or impact during transportation, and the carrying vehicle . [Technical means for solving the problem] In order to achieve the above object, the storage container of the plate-shaped body of the present invention is characterized by 151080. Doc 201124317 在于 以 收纳 24 24 24 24 24 24 24 24 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 Supporting, when forming the above-mentioned plate-like laminate, one of the four side surfaces of the plate-like laminate is covered with a sheet-like laminate placed on the pedestal; and a plurality of horizontal The pressing member is supported by the susceptor, and the side of the sheet-like laminate is sandwiched between the paper portion that is suspended from the side surface of the sheet-like laminate and the sheet covering the sheet-like laminate, and The sheet-like laminate is integrally fixed to the susceptor by a sheet. / In order to achieve the above object, the storage body of the plate-shaped body of the present invention is characterized in that. A plurality of plate-like members are housed in a storage container in a stacked state, and include a plate-like laminate which is placed on a base of the storage container and alternately laminated with a rectangular plate-like body and an area in plan view. a spacer paper larger than the plate-shaped body; the baffle '纟 is supported by the base, and is connected to the "solid side surface" of the four sides of the plate-like laminate; a sheet covering the cover a plate-like laminate; and a plurality of transverse members, wherein the susceptor supports the spacer paper portion hanging from the side of the plate-like laminate and the sheet covering the plate-like laminate The side surface of the plate-like laminate is integrally fixed to the susceptor by a sheet. The storage container of the plate-shaped body of the present invention is formed by alternately stacking a plate-shaped body and a spacer paper. The plate-like laminate is placed on the base such that one side abuts against the baffle' and covers a sheet from above the plate-like load to cover the upper surface of the plate-like laminate in a tight state 4 sides. Also, borrow I51080. Doc 201124317 A plurality of (four) members supported by the pedestal, sandwiching the side of the slab-like laminate with the spacer paper portion hanging from the side of the remaining (four) objects and the sheet covering the slab-like laminate In the case of the sheet of the state, the sheet-like laminate is integrally fixed to the base. In this case, in order to firmly fix the sheet-like laminate to the base, it is necessary to stretch the corners of the sheet covering the sheet-like laminate. After the sheet (4) is formed, it is fixed by a transverse pressing member. Thereby, a storage body in which the plurality of plate-like members are housed in the storage container in a stacked state is formed. Since the plate-like laminate of the storage body thus formed is fixed to the susceptor in a tight state, the sheet-like laminate is uniformly applied with the fastening force of the sheet in a tight state. Therefore, the stress generated by the vibration or impact when the body is conveyed by a transport mechanism such as a trailer is not partially concentrated on a part of the plate-like laminate. In other words, the stress generated by the vise-type pressing mechanism that applies the pressing force to the four corner portions of the top plate, which is described in Patent Document 3, is concentrated on the top surface of the plate-like laminate. 4 corners. Further, the spacer paper and the sheet act as a buffer to absorb the vibration during transportation. Therefore, even a large plate-like body can surely prevent damage of the plate-like body caused by vibration or impact during transportation. In the container of the plate-like body of the present invention, it is preferable that the sheet is a static electricity removing sheet which removes static electricity. When the sheet is removed, even if static electricity is generated in the plate body due to vibration during transportation or the like, static electricity can be removed. Therefore, there is no problem that the user has difficulty in peeling off the spacer paper which is in close contact with the plate-shaped body. In the storage body of the plate-shaped body of the present invention, it is preferred to form the above-mentioned sheet 151080. Doc 201124317 There is a slit hole through which the baffle penetrates when the sheet-like laminate is covered with the sheet. Therefore, even when one side surface of the plate-like laminate is placed on the pedestal when the plate-like laminate is placed on the susceptor, the upper surface and the four sides of the slab-like laminate can be covered by the sheet completely. Cover the plate laminate. Further, since the sheet covering the sheet-like laminate is easily brought into a tight state, the sheet-like laminate can be firmly fixed to the susceptor. In the storage body of the plate-like body of the present invention, it is preferable that the lateral pressure member is detachably supported by the susceptor. Thereby, when the plate-like body is placed on the susceptor of the receiving container, the lateral pressing member does not become an obstacle. In order to achieve the above object, a loading device for a plate-shaped body according to the present invention is characterized in that a storage body in which a plurality of plate-like members are stacked and housed in a storage container is mounted on a transport vehicle, and includes: a base; An attenuator disposed between the base and the bottom surface of the conveyance vehicle; and an elastic body disposed between the base and the bottom surface of the conveyance vehicle at a corner of the base, and suppressing the base relative The left and right swing amount of the floor surface of the conveyance vehicle is inclined by σ, and the storage body is mounted on the base, and the base is supported by the base, and the state of the storage body is placed between the horizontal state and the specific tilt state; a mechanism for tilting the tilting table; and a left-right offset restricting mechanism that restricts the left and right sides of the storage body to the left and right sides of the tilting table by pressing the wall portion of the one of the storage bodies of the tilting table a storage unit that holds the storage body attached to the tilting table to the tilting table and releases the fixing; and the tilting state holding mechanism that holds the above in an inclined state Tilt the table and release the hold. When loading a storage unit in a U device mounted on a transport vehicle, I51080. Doc 201124317 First, the tilting table is tilted relative to the base by the tilting mechanism to maintain a horizontal state, and in this state, the storage body is placed on the tilting table by the stacker. Thereby, even if it is a large plate-shaped body, this accommodation body can be easily mounted on the inclined table. Next, when the storage body placed on the tilting table is transported by transporting the vehicle, first, the right and left shift restricting mechanism restricts the left and right shift of the storage body with respect to the tilting table. As a result, even if the vehicle is subjected to vibration or impact on the tilting table by the transporting vehicle, the storage body does not shift to the left and right with respect to the tilting table, so that the damage of the plate-like body caused by the left and right offset can be prevented. Thereafter, the tilting table is tilted by the tilting mechanism to change the posture of the tilting table to the tilting state. Then, the storage body is fixed to the inclined opening by the storage body fixing mechanism, and the inclined state is held in the inclined state by the inclined state holding mechanism. The storage system is fixed only by the storage body fixing mechanism. The tilting table is so that the receiving body does not shift or fall off from the tilting table. Thereby, the storage body can be stably changed to the inclined posture. By the above operation, the preparation for transporting the storage body is completed. In the form of the loading device, since the storage system is transported in an inclined state, it is a large plate-shaped body, and can be transported by the transport vehicle in accordance with the current road traffic regulations. X, since the tilting table is held in the inclined state by the tilting state holding mechanism, the tilting table does not rattle with respect to the base even if the vibration or the right and left swinging during transportation is transmitted to the base. Thereby, the damage of the plate body caused by the above shaking can be prevented. Moreover, the vibration transmitted from the transport vehicle to the loading device is placed on the floor surface of the base and the transport vehicle by the transporting vehicle to transport the storage body. The attenuator between doc -10· 201124317 is attenuated and is not directly transmitted to the loading device, thus preventing the damage of the plate body caused by the above vibration. X, the right and left swinging mechanism applied from the transport vehicle to the loading device and the right and left shift preventing effect of the right and left shift restricting mechanism interact to elastically deform a plurality of elastic members disposed between the base and the floor surface of the transporting vehicle, By this, the amount of swinging left and right can stably convey the storage body, thereby preventing damage to the plate-shaped body caused by the right and left swing. According to the above description, the loading device according to the present invention can effectively perform the loading operation for the large-sized plate body, and the damage preventing mechanism including the left and right offset restricting mechanism, the damping dam and the elastic body can be used. It can surely prevent the damage of the plate body caused by vibration or impact during transportation. Preferably, the elastic system coil spring of the present invention has a load-bearing characteristic of the upper end of the inclined table which is prevented from being inclined and the wall surface of the transport vehicle when the base is swung left and right with respect to the floor surface of the transport vehicle. According to the present invention, by the weight-bearing characteristic of the disk, when the loading device swings left and right, τ prevents the upper end of the tilting table in the (four) oblique state from colliding with the wall surface of the transporting vehicle, so that the damage of the plate-shaped body caused by the collision can be prevented. Preferably, the right and left offset restricting mechanism of the present invention includes: a spacer; and a pad driving unit that presses the pad against the edge of one of the storage bodies mounted on the tilting table The other part of the body is known to be pressed against the wall of the tilting table. Preferably, the storage body fixing mechanism includes: a hook that is movably provided on the inclined table, and that is engaged with a fastening portion of the storage body on which the tilting table is loaded; and a hook driving portion that causes the hook In the position of the above-mentioned fastening portion of the storage body and the release of the buckle 151080. Doc 201124317 The positional movement between the positions is preferably: the tilting mechanism includes: a cylinder body supported by the base plate or the bottom surface of the transport vehicle; the telescopic body is telescopic with respect to the rainbow body and the front end portion thereof is coupled to The tilting table and the lever driving portion expand and contract the rod with respect to the red body. Preferably, the tilting state holding mechanism includes: a pin driving portion having a pin fixed to the base and telescopic; and a fastening portion provided at the inclination °' and formed when the tilting table is tilted The above-mentioned pin that is elongated is engaged with the hole. According to the right and left offset restricting mechanism of the present invention, the pad driving unit presses the lining against the edge of one of the accommodating bodies mounted on the slanting slabs ## / ^, 〇, and the other is the inner body The edge of the square is pressed against the wall of the tilting table. Thereby, it is possible to easily prevent the storage body from being displaced from the left and right sides of the tilting table. Further, when the storage body is taken out from the tilting table, the spacer can be retracted from the other edge portion of the storage body by the spacer driving portion. According to the container fixing mechanism of the present invention, the hook is fastened to the engaging portion of the container by the hook driving portion provided on the tilting table. Thereby, the body valley can be easily fixed to the tilting table. Further, when the storage body is taken out from the tilting table, the hook is driven by the hook driving portion only from the engaging position with respect to the engaging portion to the position where the fastening is released. According to the tilting mechanism of the present invention, the lever is extended relative to the red body by the lever driving portion, whereby the tilting table can be easily tilted and the lever can be contracted, whereby the tilting table can be easily made Horizontal status. According to the tilt state holding mechanism of the present invention, the tilting table can be easily held by the pinned portion by simply extending the pin by the pin driving portion to engage the pin. Doc 12 201124317:::Thinking. In addition, it is only necessary to change the posture of the tilting table to water retraction. "Move." The steel shrinks and only locks the hole of the self-fastening part. The hook drive part of the lining mechanism of the right and left offset restriction mechanism of the present invention, the storage body is fixed, and the (four) part of the mechanism is separately set. For the power cylinder, etc., the motor is loaded with the tilting table: phase: the carrying operation of the tilting table. The present invention is characterized in that the loading device of the present invention is characterized in that the loading device of the plate-shaped body of the two items 1 or 2 is connected via a connecting member so that the direction of the tilting table is the traveling direction. Yu has a number of stations. In the transportation vehicle of the present invention, the trailer of the tractor is mounted on the trailer, and the vehicle is mounted. The transportation vehicle of the present invention is mounted on the floor surface in a state in which the plurality of loading devices are connected via the connecting member, so that the plurality of loading devices are loaded. The case where the device is mounted on the bottom surface as a stern device is equivalent. Therefore, the load of the plurality of loading devices i is equally applied to the bottom plate surface. In contrast, when a plurality of loading devices are attached to the bottom plate surface without being connected to the connecting member, respectively, a bias I is applied to the bottom plate surface, so that the bottom plate surface may be deformed in a corrugated manner. As a handling vehicle, a winged trailer is known, which includes a side surface of the transporting vehicle and a roof portion that is folded and opened on the hinge of the center beam of the roof of the moving vehicle. In the case of such a towed vehicle, the above-mentioned deformation of the bottom plate surface will also cause the above-mentioned central chopping I51080. Doc 13 201124317 Deformed, so there is a disadvantage that the wing cannot be opened and closed smoothly. According to the present invention, since the plurality of loading devices are coupled to each other as the gantry device by the connection member as described above, the load is equally applied to the bottom surface, and only the bottom surface is uniformly displaced. The central beam does not have an edge shape. This allows the wings to be opened and closed smoothly. In order to achieve the above object, a method for conveying a plate-like body according to the present invention includes a step of maintaining a plate-like body in a horizontal state, and holding a plate-like laminate having a plurality of plate-like bodies having at least one side of 2800 mm or more laminated thereon. a tilting table to a horizontal state of the loading device; a loading step of the plate-shaped body, the loading device is transported to the transport vehicle for loading while the tilting table holding the plate-shaped body is maintained horizontal; and the tilting step of the plate-shaped body And tilting the tilting table on the transport vehicle to hold the plate-shaped laminate in an inclined state on the loading device; and transporting the plate-shaped body, and maintaining the plate-shaped laminate by the transport vehicle The status is transferred to the destination. According to the method of conveying a plate-shaped body of the present invention, when a plate-like laminate having a plate-like body is stacked on a transport vehicle, the plate-like laminate is held and mounted on a tilting table that is tilted to a horizontal state of the loading device. Therefore, even if it is a large plate-shaped body, the loading operation of a conveyance vehicle can be performed efficiently. In addition, when the plate-shaped laminate is conveyed to the destination, the plate-like laminate is held in an inclined state by tilting the tilting table, and therefore, even if it is a plate-shaped body having a larger width than the conveying vehicle, it can be stored. It is used in the transportation of the vehicle and can prevent the damage of the plate body caused by vibration or impact during transportation. 1510E0. Doc-14 - 201124317 Further, as the loading device used in the conveying method of the plate-like body of the present invention, it is preferable to use the loading device according to any one of claims 6 to 9. [Effect of the Invention] As described above, the storage container and the storage body of the plate-shaped body according to the present invention can prevent damage of the plate-like body caused by vibration or impact during transportation even if it is a large-sized plate-shaped body, and can be self-contained. The plate-like body simply peels off the spacer paper. Further, according to the loading device and the transporting vehicle of the plate-shaped body of the present invention, even if it is a large-sized + inverted body, the loading operation can be performed at a good rate, and the plate-like body caused by vibration or impact during transportation can be prevented. Damage. [Embodiment] Hereinafter, a preferred embodiment of a storage container and a receiving body of the plate-shaped body of the present invention, a loading device for a plate-shaped body, and a conveyance vehicle will be described with reference to the accompanying drawings. [Storage body of the plate-shaped body] The storage system of the plate-shaped body of the present invention is configured such that a plurality of sheets, for example, 1 to 180 pieces of rectangular shape are horizontally stacked on the base of the storage container of the present invention. The plate-like body is laminated with a rectangular sheet having a size larger than that of the plate-like body, and is covered with a sheet on the plate-like laminate to be integrally fixed to the base. In the embodiment of the present invention, the glass plate G for FPD, particularly at least one side used in the liquid crystal display, is 28 〇〇 (mm) or more, for example, the aspect ratio is more than about 3000 (mm). The case where the size of the mother glass is separated from the substrate and the thickness of the plate is 1 mm or less will be described. Furthermore, the size of the glass sheet G is not limited thereto, but the storage of the plate-like body of the present invention is 151080. Doc 15 201124317 The loading device for the body and the following plate is suitable for such a large glass plate G. Fig. 1 to Fig. 4 are views showing the procedure up to the formation of the storage body of the plate-like body of the present invention. As shown in the first step of Fig. 1, first, on the susceptor 12 of the storage container ', the two locating members (baffles) 14 that are vertically erected on one side of the susceptor 12 are in contact with each other. In this manner, a rectangular glass plate G in plan view and a rectangular paper sheet 3 having a larger area than the glass plate G are alternately laminated. Thereby, the plate-like laminate 15 placed on the susceptor 12 is formed. In this case, since the area of the spacer paper 13 is larger than the glass sheet G', the peripheral portion of the spacer paper 13 is suspended from the side surface of the plate-like laminate 15. The spacer paper 13 has, for example, a rough surface having a smoothness of 18 seconds or less (jis p 8119, 1976). The paper having a small contact area is selected such that the resin component of the spacer paper 13 is transferred to the glass sheet and the paper surface is not caused to have a pattern, an impression, or a stain on the glass surface. Further, the resin component of the spacer paper 3 is 〇5% by mass or less (JISP 8205, 1976). A paper which does not adversely affect the quality of the glass sheet G itself due to the combined effect with the above-described paper surface roughness is selected. Further, the storage container 11 mainly includes a base cymbal 2, a positioning member 丨4, and a lateral pressing member 16 and a sheet member 17 described below. The susceptor 12 is formed in a frame shape by assembling a plurality of frame members 2〇 and 2〇. The frame material 20 is made of, for example, aluminum alloy, stainless steel, 38 (made of "1, steel structure" steel, or SGHC (Steel Galvanized H〇tc〇 mmercia)). The four (four)-shaped frame members 20, 20_" are vertically and horizontally assembled into a lattice shape, and are assembled so that the lattice faces of the stage assembly members are substantially parallel, thereby constituting the susceptor 12. 151080. Doc -16· 201124317 . The opening portions 22, 22 (see FIG. 1) inserted into the fork wood 2 12 on one side of the base plate 12 on the (four) surface of the base 12 are on one side of the base a to v δ There are two more places. A mounting plate " is fixed to the susceptor 12, and a surface material such as resin is provided on the surface of the mounting plate 18. The positioning member 14 is disposed on the four side faces of the susceptor 12 and is mounted on the following 4 When the load is 3 G, it becomes the side surface on the bottom surface side of the storage body i Q, and is fixed to the susceptor 12 by the thread check 19, so that it cannot be easily attached and detached. & A defect D14A is formed in the lower part of the positioning member μ to avoid clogging. The fork portion 212 is inserted into the opening portion 22 of the base 12 of the base. Next, as shown in the second step of Fig. 2, the upper surface and the four side surfaces of the plate-like laminate 15 placed on the base 12 are covered. The sheet covers the upper sheet 17. The portion of the sheet portion i7A that hangs down on the four sides of the sheet-like laminate 15 on the side of the positioning member 14 is formed with a sheet-like layer covered by a sheet opening as shown in FIG. At the time of the object 15, the positioning member 14 penetrates the slit hole 23. Further, a reinforcing sheet 24 is placed around the slit hole 23 to be reinforced to prevent the slit hole (4) from opening. Thereby, the plate-like laminate 15 is brought into contact therewith. When the film is covered by the sheet 17 after being laminated on the susceptor 14 in a manner of being attached to the aligning member 14, the sheet-like laminate 15 can be completely covered by the sheet 17 The sheet material 7 to be used may be a general resin sheet, but is preferably a static electricity sheet. If it is a static electricity sheet, it is a transport mechanism such as a trailer having the following loading device 3 When the storage body 10 is transported, static electricity can be removed even if static electricity is generated in the glass sheet G due to vibration during transportation, etc. Therefore, it is difficult to reduce the problem that the user can peel the spacer paper 13 from the glass sheet G. For the seller, for example, AChilles 151080 manufactured by ACHILLES (shares) can be used. Doc 201124317 Static electricity F (thickness (Μ~〇·5 mm). Further, if it is a sheet having the same degree of static elimination effect as ACHILLES electrostatic F manufactured by ach(4)$ (share), any sheet can be used. As shown in the third step of FIG. 4, the sheet portion 17A which is suspended from the sheet 17 covering the sheet-like laminate 15 is stretched toward the susceptor 12 side to make the sheet u tight. A plurality of lateral pressing members 16 sandwich the side faces of the plate-like laminate 15 with the sheet 17 via the spacers 13. Thereby, the plate-like laminates 15 are integrally fixed to the base by the sheet 17 in a tight state. In this case, the lateral pressure member 16 and the lateral pressure member 16 disposed in a relatively opposed manner sandwich the side faces of the plate-like laminate 15 on the other hand. On the other hand, the seat member 14 is disposed opposite to the positioning member 14. The lateral pressing member 16 is formed on the side surface of the storage layer container 15 in a state in which the plurality of glass sheets G are stacked in a state in which the plate-like laminate 15 is sandwiched between the positioning member 14. A cross-sectional view of the side surface of the plate-like laminate 15 is sandwiched between the lateral pressing members 16 shown in Fig. 6 and the sheet 17 via the spacer paper 13. The spacer paper portion 13A which is suspended from the side of the plate-like laminate 15 and the sheet portion 17A which is laid down are attached to the side surface of the plate-like laminate 15 in the direction of the side surface. Therefore, by the lateral pressing member 16 , the hanging piece is separated The material portion 17A presses the overlapping portion of the hanging paper portion 13A. In this case, it is preferable to suspend the hanging sheet portion 17A to the side of the placing plate 18, and to press the pressing member 16 and the placing plate. The sheet portion 17A is sandwiched by the side of the sheet 18. Thus, the sheet 17 or the cross-pressing member 16 does not directly contact the side surface of the sheet-like laminate 15, and the flexible sheet glass G' of the spacer paper 13 can be utilized. It is also possible to positively press the four sides of the plate-like laminate 15 or 151080. Doc 201124317 The side of the board 18 is placed. In FIG. 4, in the three side surfaces of the plate-like laminate 15 excluding the side surface of the positioning member 14, two horizontal pressure members 16 are disposed on the opposite side surfaces of the positioning member 14, and three are disposed on the left and right side surfaces. The member 16 is laterally pressed, but is not limited to this number. Further, although the horizontal pressing member 16 having the horizontal horizontal plate 16A at the front end portion is shown in Fig. 5 and Fig. 7, as shown in Fig. 7, it may be a horizontal pressure having only the vertical plate 16Α without the horizontal plate 16Β. Member 16. In the present invention, since the sheet-like laminate 15 is pressed against the susceptor (10) by the sheet 17, it is not necessary to press the upper surface of the slab-like laminate with the horizontal plate 16β of the horizontal dust member 16. Further, in other words, "15" is a state in which the upper surface of the plate-like laminate 15 is separated from the upper surface of the horizontal plate 16A so that the horizontal plate 16 does not press the upper surface of the plate-like laminate 15. Further, it is preferable that a cushioning member 21 such as rubber is attached to the side of the plate-like laminate of the horizontal dust member μ. Preferably, the lateral pressing member 16 is detachably attached to the placing plate 18 so as not to be obstructed when the glass sheet G is mounted on the susceptor 12. As shown in FIGS. 6 and 7, the loading and unloading mechanism has a through hole 16A formed in the bottom plate 16C of the horizontal pressing member 16 which is in contact with the mounting plate 18, and a through hole 18A formed in the mounting (4). Butterfly bolt 25. Further, at the front end of the butterfly-shaped screw inspection, a spacer 26, a welding screw p-邑福) 27, a butterfly nut I, and a butterfly nut I are sequentially screwed from the side of the mounting plate 18, and on the other hand, the butterfly bolt 2 The shell. Between the P25A and the mounting plate 18, three discs are inserted through the cymbal 31. Thus, when the butterfly bolt 25 is rotated in the fastening direction, the butterfly screw 10 is close to the mounting plate 18 side. Therefore, by the bottom plate (four) and the welding_cap 27 lost ^ 151080. Doc -19· 201124317 The mounting plate 18' and the three coil springs 29 are elastically deformed to apply a pressing force to the direction in which the head portion 25A of the butterfly bolt 25 is separated from the placing plate 丨8. As a result, even if the lateral pressure member 16 is of the detachable type, the butterfly bolt 25 is not rotated by the vibration during transportation of the storage body 10, and the fixing of the blade 18 is not good. The storage body 10 of the plate-like body of the present invention configured as described above can exhibit the following effects. (1) Since the sheet-like laminate 15 is fixedly fixed to the susceptor 12 of the storage container 11 in the sheet 17 in a tight state, the sheet 17 is uniformly applied to the sheet-like laminate 15 in a tight state. Solid. As a result, the stress caused by the vibration or the impact when the storage body 10 is transported by the transport mechanism such as a trailer is not partially concentrated on one of the plate-like laminates 15. (2) In the process of transporting the storage body 10 by a transport mechanism such as a trailer, even if the plate-like laminate 15 is to be moved in the vertical direction due to vibration or the like, the paper portion that hangs around the side surface of the plate-like laminate 15 may be separated. The UA and the sheet 17 in a tight state covering the plate-like laminate 15 are sandwiched between the plate-like laminate and the lateral member 16, and the plate-like laminate 15 is sandwiched between the sheet 13 and the sheet 17 The body 12 is fixed to the base 12 so as to suppress the upward movement of the plate-like laminate. (3) In the case where the plate-like laminate u is to be moved in the lateral direction due to vibration during transportation or the like, the plate-like laminate 15 is integrally formed by the spacer paper 13 and the sheet bundle 15 It is fixed to the susceptor 12, so that the lateral movement of the plate-like laminate 15 can be suppressed. Further, the hanging paper portion 13A and the suspended sheet portion 17A are inflamed in the plate-like laminate i5 and the transverse member b 151080. Between doc • 20· 201124317, the spacer paper 13 and the sheet 17 play a buffering action in the lateral direction with respect to the plate-like laminate. (4) Further, by using the static eliminator sheet as the sheet bundle 7, the static electricity can be removed even if static electricity is generated on the glass sheet G due to vibration during transportation or the like, so that it is difficult for the user to reduce the adhesion to the glass sheet. The problem of the spacer paper 13. Therefore, even if the storage body 1 of the plate-shaped body of the present invention is a large glass plate G, it is possible to prevent damage of the glass plate G caused by vibration or impact during transportation, and the user can easily peel off from the glass plate G. Spacer paper 13. A storage body of the plate-like body of the present invention is formed by using a mother glass substrate having a size of a matrix glass having a size of more than about 3000 (mm) and a thickness of the plate of 1 mm or less, and the following description is used. When the trailer of the loading device was transported 350 times, one glass plate G was not damaged. In other words, when the plate-like laminate is fixed to the storage container by the pressing mechanism of the vise method shown in Fig. 28, the glass plate G has a broken frequency of two. Further, the storage body of the plate-like body formed in the above manner is stacked in the warehouse as shown in Fig. 8. Here, the mechanism for stacking the storage body will be described. As shown in FIG. 1 , a concave fitting hole 33 is formed in each of four corner portions on the upper surface and the lower surface of the susceptor 12, and a pillar 4 1 θ 41 is erected in the four fitting holes 33. The guide portion 41B having a larger diameter trunk portion and a diameter smaller than the front end side of the reclining portion 41A is formed, and the protruding end of the guide portion 41B is formed in a quadrangular pyramid shape or a conical shape. On the other hand, the upper surface side of the fitting hole 基座 of the susceptor 12 has a shape in which the trunk portion 41A can be accommodated, and the bottom surface side is formed as 151080. Doc 201124317 is fitted in the shape of the guiding portion 41B. Thereby, the four pillars 41 are respectively placed in the fitting holes 33 of the four corners on the upper surface of the susceptor 12, and are formed on the lower surface of the susceptor 12 of the second accommodating storage body 10. The fitting hole 33 is fitted to the guide portion 41B of the four pillars 41. By this, the storage bodies 1 of the two stages are stacked, and thus the stacking is gradually increased in the same order. Fig. 8 is a view showing a stack of three sections of the storage body. Further, a collision absorbing pad 45 ′ such as rubber is attached to the boundary surface between the trunk portion 41A and the guide portion 41B to relieve the transfer from the upper storage body 10 to the lower storage body 10 when the storage body 丨 0 is stacked in a plurality of stages. Impact. In this manner, the storage bodies 1 are stacked in a horizontal state, whereby the storage space of the warehouse can be effectively utilized as compared with the case where the storage bodies 1 are disposed in the vertical direction. When the storage unit 1 is transported from the warehouse to the transport mechanism such as a trailer by the stacker 210, as shown in FIG. 9, the fork frame 212 of the stacker 210 is inserted into the susceptor 12 while maintaining the stacking state. The opening 22 is conveyed to the trailer in a horizontal state. Further, the storage unit 10 is mounted on the loading device 3 mounted on the trailer with the setting member 14 as the bottom surface. Next, the loading device 3 of the plate-shaped body of the present invention will be described in detail. Further, the storage body 1 of the plate-like body mounted on the loading device 30 is not limited to the storage body of the plate-shaped body of the present invention. [Loading device for plate-shaped body] FIG. 11 is a left side view showing a trailer (transporting vehicle) 2A on which the loading device 3 is mounted. In addition, FIG. 12 shows a front view of the loading device 3 that holds the storage unit 1 水平 in a horizontal state and is mounted on the trailer 200. Further, in FIG. 3, the storage body is shown. Keep 151080 in a tilted state. Doc -22· 201124317 Loading on the trailer 200 ® * Soil loading device 3 〇 front view. Further, the storage body 10 is placed in the Λ^ - ^ ^ ^ state in Fig. 12, and is placed and carried out by the stacking machine 21 of Fig. 14 . needle. 34. Since the tilting table 34 is as shown in Fig. U, the load carrying device 3 is mounted on the floor surface 2Q2 of the trailer in a state in which three sets are provided in parallel at a predetermined interval. If it is described in detail, the three loading devices 3〇, 30俜 are in the direction of the axis of Fig. 12 and Fig. 13 which are supported by the tilting port 34 with respect to the base 32. The trailers shown in the arrow A of FIG. 11 are arranged in a row and are mounted on the bottom plate surface 2〇2 in such a manner that the traveling directions of the trailers are uniform. In addition, the three (3) and 3 () bottoms are mounted on the bottom plate surface 202 via the steel members (connecting members (4) 4 that are placed up and down between the adjacent loading farms 30 and 30. It shows three loading devices 3〇, 30. . . However, the number of the loading devices can be two or one. Further, in Fig. η, a trailer 2 towed by a tractor is exemplified, but a transport vehicle equipped with a loading device 30 may be a loading dock of a trailer or a trailer mounted on a trailer. In addition, the trailer 200 is mounted on the bottom plate surface 2〇2 in a state in which the three loading devices 3〇, 3〇... are connected via the steel material 2〇4, so that the three loading devices 30, 30·. . The case where the i-weight device is mounted on the bottom plate surface 2〇2 is the same. Thereby, the load of the three loading devices 3〇, 3〇~ is equally applied to the bottom plate surface 202. For this, if a plurality of loading devices are 3〇, 3〇. When the steel material 204 is connected to each other and is mounted on the bottom plate surface 2〇2 individually, the base plate surface 202 is biased, and the bottom plate surface 2〇2 may be deformed in a corrugated manner. As shown in Fig. 2 and Fig. 13, the trailer 2 of the embodiment is as follows: Doc -23- 201124317 The vehicle's side and roof sections are mounted to the roof of the trailer 200. The hinges 207 of the central beam 206 open and close one of the pair of wings 208, 208. In the case of such a trailer 200, the above deformation of the bottom plate surface 2〇2 also causes the central beam 206 to be wavy, so that there is a problem that the wings 208, 208 cannot be smoothly opened and closed. In this case, in the trailer 2 of the embodiment, the three loading devices 3A, 30, ... are connected via the steel material 204, and are mounted on the bottom plate surface 202 as one weight device. Therefore, the load is uniformly applied to the bottom plate surface 202. Only the bottom plate surface 202 is equally displaced downward, so that the center beam 2〇6 does not deform in a wave shape, thereby having the advantages of smoothly opening and closing the wings 208 and 208. Next, the loading device 30 will be described. As shown in Figs. 12 and 13, the loading device 3 〇 mainly includes a base 32 and a tilting table 34. The base 32 and the inclined table 34 are made of, for example, iron or stainless steel. The base 32 is a coil spring mechanism (elastic body) of FIG. 15 interposed between a plurality of vibration isolators (attenuators) 38, 38, ... and a left and right swing amount of the loading device 30 with respect to the bottom surface 2〇2. It is mounted on the base plate 214 which is provided in the center part of the floor surface 202 of the trailer 2 as shown in FIG. Further, by providing the base plate 214 at the central portion of the bottom plate surface 202, the height of the bottom plate surface 202 on both sides of the base plate 214 is lowered by the height of the base plate 214, and the height difference is used as shown in FIG. The lower portion of the inclined table 34 in the inclined state enters the bottom surface 202 of the lower height. Therefore, even if it is a large storage body, it can be tilted and loaded on a trailer that defines the width and height of the vehicle in accordance with traffic regulations. The upper part of the base 32 is provided with a tilting shaft as shown in FIG. Doc -24- 201124317 Oblique c» 34 bearings 42, 42. The bearing 42 is fixed to each of the two sides of the upper portion of the base 32 by bolts, and the tilting table 34 is rotatably supported by the bearings 42, 42 via the shaft 36. Thereby, the tilting table 34 is tilted with respect to the base 32 between the horizontal postures shown in the tilting posture of FIG. 16 and the shaft 36 is held by the bearings 37 and 37 at the lower portion of the tilting table 34. Central Department. As shown in Fig. 13, the slanting table 34 is provided with a receiving plate 35 which receives the lower end surface of the accommodating body 10 mounted on the slanting table 34 when the slanting table 34 is in an inclined posture. X, a restricting plate (wall portion) 39 for restricting the left and right displacement of the storage body 1 () on the inclined table 34 as shown in Fig. 19 is provided at the lateral edge portion of the inclined table 34. As will be described later, when the right and left offset restricting means (left and right shift restricting means) 46 shown in Figs. 18 and 19 presses the edge portion 1 of one of the storage bodies 10 mounted on the tilting table 〇Β When the other edge portion of the storage body is pressed against the restriction plate 39, the storage body 10 can be reliably prevented from shifting to the left and right of the inclined table 34. Further, the lateral edge portion of the inclined table 34 is the edge portion in the direction orthogonal to the traveling direction of the trailer 2〇〇 shown in the figure. In addition to the base 32, the tilting table 34, the gamma vibrating body 38, and the coil spring mechanism 40, the loading device 30 of the embodiment further includes a screw jack (tilt mechanism) 44 for tilting the tilting table 34, and Figs. 18 and 19 Left and right offset limit shown in Fig. 46, storage unit fixing device (storage body fixing mechanism) 48 shown in Fig. 20 and Fig. 21, and tilt state holding device (inclined state holding mechanism) shown in Fig. 22 and Fig. 50 . Figure 24 shows the vibration isolation body 38 and the coil spring mechanism relative to the base 32. Doc •25- 201124317 The top view of the base 3 of the position 3 2 As shown in Fig. 24, the vibration isolators 38 are respectively disposed at the corners of the base 32 with respect to the base 32 having a rectangular shape in plan view, and Four in the longitudinal direction are arranged at equal intervals, and two in the short side direction. Further, the coil spring mechanism 4 is disposed one on each of the brackets 52 extending from the corner 4 of the soil σ in the longitudinal direction of the base 32. The vibration insulator 38 is shown in a side view of Fig. 25 and a longitudinal sectional view of Fig. 26, and includes three dampers 54, 54 and a bottom plate % and a top cover 58. The damper 54 is made of a rubber which is formed in an annular shape by being contracted in the direction of the central axis of the damper 54 (in the direction of Fig. 25). The damping states are 54, 54. . . It is inserted into the shaft 6 erected on the bottom plate 56 and stacked in the up and down direction. The bottom plate 56 is formed in a rectangular shape as shown in Fig. 15, and its corner portion is fixed to the base plate 214 by bolts 62. As shown in Fig. 26, the top cover 58 is a substantially cylindrical portion which is closed at the upper portion and is open at the lower portion, and is damped to the damper 54 of the shaft 6 from the upper portion. Further, a pair of brackets 64 extend in the horizontal direction at a symmetrical position centering on the center axis of the top cover ( (the same direction as the direction of the figure) on the outer peripheral portion of the lower portion of the top cover 。. A bolt 66 (not shown) formed in the bracket 64 is inserted through a bolt 66 that is erected on the second plate 56, and a nut (10) is fastened to the bolt 66, thereby absorbing the top cover 58 54, 54. . . It is fixed to the bottom plate 56. Borrow (four) check 7. It is fixed to the lower part of the base 32. With this configuration, the three dampers 54, 54 are held by the bottom plate brother and the top cover 58 to fasten the three dampers 54, 54 ... in the central axis direction of the damper 54. The nut 68' is thereby set to play the attenuation effect of the shock absorbers 54, 54... in the initial stage 15] 〇S〇4doc -26- 201124317. Therefore, the vibration transmitted from the bottom surface 2〇2 of the trailer 2 to the base 32 of the loading device 30 is attenuated by the damping action of the vibration isolating bodies 38, 38..., thereby preventing the glass plate caused by the vibration. G damage. On the other hand, as shown in Fig. 15 and Fig. 27, the coil spring mechanism 4 includes a coil spring (a) in which three stages are arranged in parallel on the upper and lower sides of the bracket 52 (i): j 〇ton) 72, 72, 72 . The coil spring mechanism 4 includes a screw shaft 74, washers 76, 76, ..., a sleeve 78, nuts 80, 8, ... in addition to the coil springs 72, 72, 72. The discs 72, 72, 72 can also be arranged in series. Whether the serial or parallel configuration is based on the required reaction force of the spring can be determined. The screw shaft 74 is erected in a shape as shown in Fig. 15. The corner portion of the rectangular support plate 82 is fixed to the base plate 214 by bolts 84. As shown in Fig. 27, the brackets of the screw shaft 74 are clamped by a JZ FUA亍H, which is called "%", and the upper portion of the nut 80 is inserted through the spacer 76 through the lower side of the nut 80. Ί, 72, 72. X' is inserted into the upper portion of the coil spring 72 via the cymbal 76, and the sleeve s 78 is placed in the state where the screw shaft 74 is inserted into the hole 53 formed in the bracket 52. Further, the upper three coil springs 72, 72, 72 are inserted into the bracket and inserted into the screw shaft 74'. The upper spacer spacer 76 of the coil spring 72 is screwed with insects (f) c 。 .累 tired of 80, 80. In this state, the upper and lower nuts 8 〇 8 紧固 are fastened to the screw shaft 74 in a direction close to each other, whereby the six coil springs 72·. ·Elastic deformation of the feed ’ The coil spring mechanism 40 exerts a specific load. The load-bearing characteristic of the coil spring mechanism 40 means that the base 32 is opposite to the trailer 2 〇〇 151080. When the bottom surface 202 of the do'c -27-201124317 swings left and right, the load-bearing characteristic of the upper end 34A of the inclined table 34 and the wing (wall surface) 2〇8 of the trailer 200 can be prevented from being inclined. For example, when the horizontal state of the base 32 shown in Fig. 27(A) is as shown in Fig. 27(B), the base 32 is stepwise α. When swinging left and right, the right coil mechanism 40 shown in Fig. 27(B) and the three coil springs 72, 72, 72 on the upper side of the bracket 52 are oscillated and elastically deformed, and left as shown in Fig. 27(B). The side coil spring mechanism 40 and the three coil springs 72, 72, 72 on the lower side of the bracket 52 are subjected to the swing to be elastically deformed. The six coil springs 72, 72 which are elastically deformed at this time are set. · Resilience The restoring force (load weight characteristic) exceeds the force generated by the left and right swing of the base 32. Thereby, when the base station 32 performs α. When swinging left and right, the elastic restoring force is restored to the original horizontal state, so that it does not exceed α. Swing left and right. That is, in the loading device 3 of the embodiment, the allowable maximum swing angle at which the upper end 34 of the tilting table 34 for preventing the tilting of the tilting table 34 collides with the wing 208 of the trailer 2 is set to α°. Thereby, according to the loading device 3 of the embodiment, when the loading device 3 is swinged left and right by the load-bearing mechanism of the coil spring mechanism 4, the upper end 34 of the tilting table 34 and the trailer 2 can be prevented from being tilted. The wing 208 collides, thereby preventing damage to the glass sheet G caused by the collision. Next, the screw jack 44 for tilting the tilting table 34 will be described with reference to Figs. 16 and π. The screw jack 44 includes a cylinder 86' screw (rod) 88 and a horse (rod driving portion) 9〇, and the screw 88 that retracts and contracts with respect to the cylinder 86 is expanded and contracted by the power of the motor 90, whereby the tilting table can be used. The posture of 34 is changed to the tilt posture shown in the figure and the horizontal posture shown in Fig. 17. 151080. Doc -28- 201124317 The cylinder 86 is detachably provided to the bracket 92 via the shaft 94, and the bracket is worn in the center portion of the side surface of the base 32. The rocking direction of the cylinder 86 is set to the tilting direction of the tilting table 34. The snail #88 is housed in the rainbow body 86, and is rotatably supported by the upper surface of the slanting cup 34 via the shaft 9.8 with respect to the cylinder body %. The bracket 96 provided at the position of the upper end μ of the tilting table %. Further, the screw 88 is coupled to the motor 9A via a gear (not shown) in the gear case, and is retractable with respect to the cylinder % by the rotational power of the motor 9〇 via the ω wheel transmission. In other words, when the screw 88 performs the elongating operation, the screw 88 pushes the tilting table 34 upward as shown in Fig. 16, whereby the tilting table 34 is in an inclined posture, and when the screw 88 is contracted, it is inclined as shown in Fig. 17. The platform descends and becomes a horizontal posture. Following the tilting of the tilting table 34 at this time, the cylinder 86 is rocked about the shaft 94, whereby the tilting operation of the tilting table 34 by the screw jack 44 is smoothly performed. According to the screw jack 44 of the embodiment, the screw Μ is extended relative to the cylinder 86 by the motor 9〇, whereby the tilting table 34 can be easily tilted, and the tilting table 34 can be easily made by contracting the screw 88. The ground becomes a horizontal 'state. The left and right offset restricting means 46 will be described with reference to Figs. 18 and 19. The right and left offset restricting means 46 includes a cylindrical gasket 1?2 made of rubber or resin and a pad driving portion 1?4. The pad driving unit 104 includes a motor 106 and a ferrule. The motor 106 is fixed to the tilting table 34 151080 by bolts 112. The bracket 110 fixed on the side of doc -29-201124317, and the input shaft 116 of the universal joint 108 is coupled to the rotating shaft 114 of the motor 106. The shaft 122 of the pad holder 120 is coupled to the output shaft 118 of the universal joint 108. The shaft 122 is rotatably supported by a bracket 124 fixed to the side of the tilting table 34. The lining holder 120 includes a bracket 126 coupled to the lower portion of the shaft 122. The lower bracket 126 is mounted with a lower portion of the reinforcing cylinder 128 and the spacer 1〇2. The cylindrical body 12 8 is disposed on the same axis as the shaft 12 2 , and the pad 102 is disposed at a position shifted by a certain amount from the central axis 1 〇 2A with respect to the central axis 122A of the shaft 122. Further, the upper portions of the cylindrical body 128 and the spacer 1〇2 are connected by the upper bracket 130. Accordingly, according to the left and right offset restricting means 46, when the motor 106 is driven, its power is transmitted from the universal joint ι 8 to the shaft 1 22 to rotate the lining holder 120 about the shaft 122. Further, when the spacer 102 is moved to the position indicated by the solid line in FIGS. 18 and 19, the pad 102 presses the edge portion 10B of one of the housing bodies 1 mounted on the tilting table 34 and the storage body is placed. The other side of the cymbal 丨〇A is pressed against the restricting plate 39 of the slanting table 34 to set the mounting position of the spacer 〇2. Therefore, according to the right and left offset restricting device 46 configured as described above, the spacer 102 is moved by the motor 106 to the position shown by the solid line in FIGS. 18 and 19, whereby the storage body is placed by the spacer 102. The one edge portion 10A is pressed against the restricting plate 39 of the tilting table 34, so that the left and right sides of the receiving body 10 with respect to the tilting table 34 can be restricted by the spacer 1〇2 and the restricting plate 39 (trailer 2〇〇) The deviation of the direction of travel). Thereby, it is possible to easily prevent the accommodation body 偏移 from being displaced to the left and right with respect to the tilting table 34, thereby preventing damage of the glass sheet G caused by the left and right offset. Further, when the storage body 10 is taken out from the tilting table 34, it is driven by an overview of 151080. Doc -30 - 201124317 The portion 104 of the pad 1G2 is retracted from the other edge #1〇3 of the storage body 10 as shown by the double-dotted line in Fig. 18, and is released by the outline (10) and the restriction plate 3 9 The left and right offset limits are sufficient. Next, the storage body fixing device 48 will be described with reference to Fig. 2 〇, m 9 1, #4* n ^ from Fig. 21 . The storage unit fixing device 48 is provided with a device for fixing the (four) body 10 to the tilting table 34 and releasing the fixing, and mainly includes a hook 132 and a hook driving portion 134. The hook 132 is movably supported by the tilting table 34 via a guide rail 136 which is fixed to the lower surface of the tilting table 34 and which is a lower surface of the upper end 34A in the inclined posture (see Fig. 13). That is, the hook 132 is formed in a substantially L shape, and a pin us is provided at the front end portion thereof. The pin 138 is detachably fastened to the accommodating portion 140 having an L-shaped cross section provided on the susceptor 12 via an opening formed in a lower portion of the susceptor 12 of the accommodating body 1A. At this time, the resin lining 4 设置 4 ι provided in the fastening portion 14 密 is in close contact with the pin 138 , thereby being hooked 132 . On the other hand, the guide rail 136 is movably supported on the other hand, and the guide rail 136 is movably supported by the hooking position of the hook 13 2 with respect to the engaging portion 14 as shown in FIG. 3 2 An arc-shaped groove 144 that guides the guide roller 142 that is rotatably provided at the base end portion of the hook 132 is formed between the retracted positions of the engaging portion 140. Therefore, the hook 132 is moved along the groove 144 to reciprocate between the engaged position shown in Fig. 20 and the retracted position shown in Fig. 21. In addition, the symbol 146 is rotatably disposed on the guide roller of the hook 132, and the guide roller 146 and the guide roller 142 are clamped by the groove 144, thereby making the hook 132 stable 151080. Doc •31 - 201124317 Land mobile. The hook drive portion 134 includes a power cylinder 150 having a telescopic rod 148. The base end portion of the power cylinder 150 is rotatably coupled to the bracket 152 fixed to the lower surface of the inclined table 34 via the pin 154, whereby the power cylinder 150 is tilted in the vertical direction with respect to the tilting table 34. Further, the guide wand 142 of the fishing rod 132 is rotatably coupled to the front end portion of the rod 148 via the pin 156. Therefore, according to the storage body fixing device 48 configured as described above, when the rod I48 is expanded and contracted by the power cylinder 15 ,, the guide roller M2 moves along the groove 144 of the guide rail 136, whereby the hook 1 32 is as shown in FIG. The engagement position reciprocates between the retracted position and the retracted position shown in FIG. 21, and in conjunction with this operation, the power cylinder 150 swings with the pin 154 as a fulcrum. Thereby, when the storage body 1 is fixed to the inclined table 34, the rod 148 is contracted as shown in Fig. 20, and when the fixing is released, the rod 148 is extended as shown in Fig. 21. Thereby, the storage body 10 can be easily fixed to the tilting table 34 and released. Next, the tilt state holding device 5A will be described with reference to Figs. 22 and 23 . The tilt state holding device 50 is a device that holds the tilting table 34 in an inclined posture (refer to FIG. 13). It includes a power cylinder (the pin driving portion (10) and the hole formed with the pin 158). The cylindrical fastening portion 16 of the 162 is fixed to the base 32 as shown in Figs. 12 and 13 , and is fixed to the inclined table 34 with the pins 164 and (4) parallel to each other. When the mouth 1 is in the inclined posture and is on the inclined table 34, the potential is arranged before the hole 162 and the pin 158 as shown in Fig. 23, I51080. Doc •32· 201124317 Relative position. Further, a spacer 1 66 is disposed in the hole 1 62, and a groove 168 for guiding the insertion of the pin ι 58 is formed on the upper surface of the spacer 166. Further, the 'liner 166' is pressed against the closed hole 162 by the pressing force of the three-stage coil spring (elastic force: 467 kgf) inserted into the engaging portion I", and is included by The position of the long hole 172 and the pin 174 is restricted to the position of the closing hole 162 to the position of Fig. 23. The long hole 172 is formed along the axial direction of the engaging portion 164, and the pin 174 is fixed. The pad 166 is slidably fastened to the slot 172. Therefore, when the pressing force of the coil spring 17 is applied to the pad 166, the pad 166 is directed toward the closed hole 162 by the pressing force. Push up, but since the pin 174 abuts against the upper edge of the long hole 172, the initial position of the pad 166 is set to the position of Fig. 23. In this state, when the pin 158 is extended by the power cylinder 160 The pin 158 enters from the entrance of the hole 162, and presses the front tapered surface 158A against the V-groove 168 of the gasket 166. Moreover, by the pushing force of the pin 158, the gasket 166 is resisted against the pressure of the coil spring 170. The force is pushed down, and the pin 158 is shown as shown in the figure. The outlet of the hole 大 is large and is fastened to the hole 〖62. Thereby, the state is maintained via the tilt state. At this time, the pin 50 is placed and the tilting table 34 is held in the inclined posture on the base 32 to be pushed upward. Therefore, the 158 without the sway is engaged with the hole 162 by the pressing force of the coil spring 170. Therefore, The tilting state holding device 5 is configured to extend the pin 158 by the power cylinder 160 to engage the hole 162 of the engaging portion 164, so that the tilting table 34 can be easily held in an inclined state. The posture of 34 is intended to be changed to a horizontal makeup performance - ° In the case of a heart shape, the hunting pin 160 is contracted by the power cylinder 160, so that the hole 162 of the M-portion portion 164 can be pulled out of the pin 158. 151080. Doc -33- 201124317 Next, the action of the loading device 3 configured as described above will be described. Further, the operation of the screw jack 44, the right and left offset restricting device 46, the storage body fixing device 48, and the tilt state holding device 5A has been described above, and thus the operation thereof will be omitted. First, when the storage body 10 is mounted on the loading device 30 mounted on the trailer 2, first, the tilting table 44 is tilted with respect to the base 32 by the screw jack 44, and is held horizontally. In the state, the storage body 10 is placed on the inclined table 34 by the stacker 21 as shown in Fig. 14. Therefore, even if it is a large glass plate G, the storage body 1 can be easily mounted on the inclined body. Next, when the storage body 10 placed on the inclined table 34 is transported by the trailer 200, the first and second offset limiting devices 46 shown in Figs. 18 and 19 are used to restrict the storage body 10 from being opposed to the storage body 10. The tilting table 34 is offset to the left and right. Thereby, even if vibration or impact is applied to the tilting table 34 from the trailer 200, the receiving body does not move to the left and right wires with respect to the tilting table 34, so that the glass caused by the left and right offset can be prevented. The damage of the plate G. Thereafter, the tilting table 34 is tilted by the screw jack 44 to change the posture thereof to the inclined state. Next, the storage body is attached by the hook 132 of the storage body fixing device 48 shown in Figs. 20 and 21 . 10 is fixed to the tilting table 34. Thereafter, the storage body 10 is fixed to the inclined table 34 by the hooks 13 2 of the inner body fixing device 48, so that the storage body 1〇 does not shift or fall off from the tilting table 34, thereby The storage body 1 is stably changed to the inclined posture. Then, the tilting table 34 is held in the inclined state of Fig. 13 by the pin 158 of the inclined state holding device 50 shown in Figs. 13 and 14 . Preparation for the storage body 1〇. 151080. Doc -34- 201124317 Inclined = 3° in the form of handling, due to the storage body 1 (3 series to tilt: to transport... even for large glass plates can be carried out according to the current father's regulations Since the tilting table 34 is held in the inclined state by the tilting state holding device 5G, the tilting table does not rattle with respect to the base 32 even if the vibration is transmitted or the left and right swings are transmitted to the base. Therefore, it is possible to prevent the damage of the glass sheet G caused by the above-mentioned money. Further, when the storage body 1 is transported by the trailer 200, the vibration transmitted from the trailer 2 to the load I 3G is disposed on the base 32. The vibration isolation body 38, 38 between the base plate 214 of the trailer. • It is attenuated without directly transmitting the two loading devices 3G' so that the damage of the glass sheet G caused by the above vibration can be prevented. Further, the right and left swinging system applied from the trailer 2 to the loading device 3〇 and the right and left offset preventing effect of the right and left shift restricting device 46 interact to cause the base plate 214 disposed on the base 32 and the trailer 2〇〇. There are a number of discs in the middle of the disc. *72,72··. Since the elastic deformation is suppressed by this, the storage body 10 can be stably conveyed, whereby the damage of the glass sheet G caused by the right and left swing can be prevented. According to the above description, according to the loading device 3 of the embodiment, the loading operation can be performed efficiently even for the large glass sheet G, and the left and right offset restricting means 46, the vibration isolating body 38, and the coil spring mechanism 40 are included. The function of the damage preventing mechanism can surely prevent damage of the glass sheet G caused by vibration or impact during transportation. On the other hand, according to the trailer 20 of the embodiment, the loading device 3 is privately loaded with the axis of the shaft 36 of the tilting table 34 as the traveling direction. Doc -35- 201124317 to transport the storage body 10. By loading the loading device 3 to the trailer 2 in this position, even if it is a large glass plate G, it can be transported in accordance with current road traffic regulations. - The present invention has been described with reference to the specific embodiments, and it will be understood by those skilled in the art that various changes or modifications can be made without departing from the spirit and scope of the invention. The present application is based on Japanese Patent Application No. 2010-005069, filed on Jan. 31, the entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire entire [Industrial Applicability] The glass plate G is exemplified as the use example of the present invention. However, the glass plate G is not limited to the glass plate G, and the plate-like body may be used as a plate-shaped body such as a resin plate or a metal plate. In the storage device and the plate-shaped body loading device and the transportation vehicle of the plate-shaped body of the invention, the liquid crystal display is used for safely transporting a large and thin plate-shaped body stably and without damage. The first mother glass substrate is particularly effective. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a first step of forming a storage body of a plate-like body of the present invention, and showing a partially cut glass plate. Fig. 2 is a perspective view showing a second step of forming a storage body of the plate-like body of the present invention. Fig. 3 is an explanatory view showing a sheet covering a plate-like laminate. Fig. 4 is a perspective view showing a third step of forming a storage body of the plate-like body of the present invention. Figure 5 is a view showing the spacer paper and sheet in the storage body of the plate-like body of the present invention 151080. Doc -36· 201124317 and an explanatory diagram of the relationship between the transverse members. Fig. 6 is an explanatory view showing a lateral pressure member. Fig. 7 is an explanatory view showing another aspect of the lateral pressing member. Fig. 8 is an explanatory view showing a state in which the storage body of the plate-like body is stored in a warehouse or the like in a stacked state. Fig. 9 is an explanatory view for explaining a posture in a case where a storage body of a plate-shaped body is transported. Fig. 10 is an explanatory view showing a posture in a case where a storage body of a plate-like body is mounted on a loading device. Figure 11 is a left side view of the trailer on which the loading device is mounted. Figure 12 is a front elevational view of the loading device of the splitting device in which the storage body is held in a horizontal state on the trailer. Fig. 13 is a front view of the loading device for holding the storage body in an inclined state on the device mounted on the trailer. Fig. 14 is a view showing a loading method of a storage body using a stacker. Fig. 1S is a view showing a configuration of a vibration isolating body and a coil spring mechanism. . Large perspective view. The main part of the illusion is 圚 〇 衣 衣 衣 图 图 图 图 17 17 17 17 17 17 17 17 17 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略 概略Side view of the shift limiting device 151080. Doc • 37· 201124317 Fig. 2 shows a side view of a main portion in a state in which the storage body is fixed to the inclined table by the storage body fixing device. Fig. 21 is a side elevational view showing the essential part of the state in which the storage body is fixed to the tilting table. Fig. 22 is a perspective view of a main portion showing a state in which the tilting table is held in a tilting posture by the tilting state holding means. Fig. 23 is a perspective view of a main portion showing a state in which the tilt posture of the tilting table is released. Fig. 24 is a plan view showing the base of the arrangement position of the vibration insulator and the coil spring mechanism. Figure 25 is a side view of the vibration insulator. Figure 26 is a longitudinal sectional view of the vibration insulator. 27(A) and 27(B) are cross-sectional views showing the operation of the coil spring mechanism. Fig. 2 is an explanatory view showing a prior art method of fixing a plate-like laminate to a storage container. [Description of main components] 10 Storage body 10A The other edge 10B One edge 11 Storage container 12 Base 13 Spacer 13A Spacer section 14 Positioning member 151080. Doc - 38 - 201124317 14A Notch 15 Plate laminate 16 Cross member 16A Vertical plate 16B Horizontal plate 16C Base plate 16D Through hole 17 Sheet 17A Sheet portion 18 Mounting plate 18A Through hole 19 Bolt 20 Frame 21 Cushioning member 22 opening 23 slit hole 24 reinforcing sheet 25 butterfly bolt 25A head 26 spacer 27 welding nut 28 butterfly nut 29 coil spring 30 loading device 151080. Doc -39- 201124317 31 Gasket 32 Abutment 33 Fitting hole 34 Inclined table 34A Upper end 35 Receiving plate 36 Shaft 37 Bearing 38 Vibration isolating body 39 Restricting plate 40 Coil spring mechanism 41 Pillar 41A Torso 41B Guide 42 Bearing 44 Screw jack 45 Impact absorbing lining 46 Left and right offset limiting device 48 Storage body fixing device 50 Tilting state holding device 52 Bracket 53 Hole 54 Shock absorber 56 Base plate 151080. Doc -40- 201124317 58 Top cover 60 Shaft 62 Bolt 64 Bracket 66 Bolt 68 Nut 70 Bolt 72 Coil spring 74 Screw shaft 76 Shim 78 Bushing 80 Nut 82 Support plate 84 Bolt 86 Cylinder 88 Screw 90 Motor 92 Bracket 94 Axis 96 Bracket 98 Axis 100 Gearbox 102 Pad 104 Pad drive 151080. Doc -41 201124317 106 Motor 108 Universal joint 110 Bracket 112 Bolt 114 Rotary shaft 116 Input shaft 118 Output shaft 120 Pad retainer 122 Shaft 122A Center shaft 124 Bracket 126 Lower bracket 128 Cylinder 130 Upper bracket 132 Hook 134 Hook drive 136 Guide rail 138 Pin 140 Fitting 141 Lining 142 Guide roller 144 Slot 146 Guide roller 148 Rod -42 151080. Doc 201124317 150 Power cylinder 152 Bracket 154 Pin 156 Pin 158 Pin 158A Front taper 160 Power cylinder 162 Sub L 164 Fastener 166 Pad 168 V slot 170 Coil spring 172 Long 孑 L* 174 Pin 200 Trailer 202 Base plate Face 204 steel 206 central beam 207 hinge 208 wing 210 stacker 212 fork 214 base plate G glass plate 151080. Doc -43